阅读说明：本技术 一种医用监测呼吸式睡眠机 (Medical monitoring type of respiration sleep machine ) 是由 白利华 于 2021-07-09 设计创作，主要内容包括：本发明涉及一种医疗用具领域,更具体的说是一种医用监测呼吸式睡眠机,通过调节装置将呼吸面罩的位置进行调节,通过手摇轮转动驱动锥齿轴一,进而使得齿条一进行滑动,从而对呼吸面罩的位置进行调节,旋转支架的转动,进而使得直齿轮二驱动齿条二进行滑动,从而对呼吸面罩的高度进行调节,监控组件是对患者的呼吸进行监测,通过监测块的滑动使得锥齿轴进行啮合,进而使得直齿轴一驱动响片敲击响铃对患者进行报警,直齿轴一带动直齿轴二,进而使得齿条三滑动带动凸块二对医护人员的报警铃进行通知,睡眠机装置是对患者在睡眠时需要的高度进行调节,本发明在对患者呼吸进行监控的同时,即保证了设备的使用安全,同时又最大的满足患者的要求。(The invention relates to the field of medical appliances, in particular to a medical monitoring breathing type sleeping machine, which adjusts the position of a breathing mask through an adjusting device, drives a bevel gear shaft I through the rotation of a hand-operated wheel, further drives a rack I to slide, thereby adjusting the position of the breathing mask, rotates a rotary bracket, further drives a straight gear shaft II to slide, thereby adjusting the height of the breathing mask, monitors the breathing of a patient, enables the bevel gear shaft to be meshed through the sliding of a monitoring block, further enables a straight gear shaft I to drive a sound sheet to knock a bell to alarm the patient, drives a straight gear shaft II, further enables a rack III to slide and drives a lug to inform alarm bells of medical personnel, and adjusts the height required by the patient during sleeping, the use safety of the device is ensured, and the requirements of patients are met to the maximum extent.)

1. The utility model provides a medical monitoring breathing formula sleep machine which characterized in that: the sleep device comprises an adjusting device (1), a monitoring component (2) and a sleep device (3), wherein the adjusting device (1) is connected with the monitoring component (2), the adjusting device (1) is connected with the sleep device (3), and the monitoring component (2) is connected with the sleep device (3).

2. The medical monitoring breathing sleep machine of claim 1, wherein: the adjusting device (1) comprises a hand-operated wheel (1-1), a first bevel gear shaft (1-2), a rotating support (1-3), an idler wheel (1-4), a fixed support (1-5), a second bevel gear shaft (1-6), a first straight gear (1-7), a first rack (1-8), a rack support (1-9), a first fixed rod (1-10), a groove (1-11), a third bevel gear shaft (1-12), a bevel gear (1-13), a transmission shaft (1-14), a second straight gear (1-15), a second rack (1-16), a second fixed rod (1-17), a first bump (1-18), a second spring (1-19) and a breathing mask (1-20), wherein the hand-operated wheel (1-1) is fixedly connected with the first bevel gear shaft (1-2), a first bevel gear shaft (1-2) is rotationally connected with a rotating support (1-3), an idler gear (1-4) is in meshed connection with the first bevel gear shaft (1-2), the idler gear (1-4) is rotationally connected with a fixed support (1-5), the idler gear (1-4) is in meshed connection with a second bevel gear shaft (1-6), the fixed support (1-5) is rotationally connected with a third bevel gear shaft (1-12), the fixed support (1-5) is rotationally connected with a transmission shaft (1-14), the second bevel gear shaft (1-6) is fixedly connected with a first straight gear (1-7), the first straight gear (1-7) is in meshed connection with a first rack (1-8), the first rack (1-8) is slidably connected with a rack support (1-9), the first rack (1-8) is fixedly connected with a first fixed rod (1-10), the groove (1-11) is arranged on the fixed rod I (1-10), the bevel gear shaft III (1-12) is fixedly connected with the rotary bracket (1-3), the bevel gear shaft III (1-12) is meshed with the bevel gear (1-13), the bevel gear (1-13) is fixedly connected with the transmission shaft (1-14), the transmission shaft (1-14) is rotatably connected with the bevel gear shaft II (1-6), the transmission shaft (1-14) is fixedly connected with the straight gear II (1-15), the straight gear II (1-15) is meshed with the rack II (1-16), the rack II (1-16) is fixedly connected with the fixed rod II (1-17), the bump I (1-18) is fixedly connected with the groove (1-11), the bump I (1-18) is slidably connected with the fixed rod II (1-17), the first projection (1-18) is in contact with the second spring (1-19), and the breathing mask (1-20) is fixedly connected with the second fixing rod (1-17).

3. The medical monitoring breathing sleep machine of claim 1, wherein: the monitoring component (2) comprises a breathing pipeline (2-1), a fixing plate (2-2), a monitoring block (2-3), a rotating rod I (2-4), a sliding bearing I (2-5), a fixed sliding chute I (2-6), a bevel gear support (2-7), a bevel gear shaft IV (2-8), a bevel gear shaft V (2-9), a bevel gear shaft VI (2-10), a face gear I (2-11), a straight gear shaft I (2-12), a bell (2-13), a sounding sheet (2-14), a straight gear shaft II (2-15), a face gear II (2-16), a half gear shaft (2-17), a rack III (2-18), a sliding bearing II (2-19), a fixed sliding chute II (2-20), a lug II (2-21), A second spring (2-22), the breathing pipeline (2-1) is fixedly connected with a breathing mask (1-20), the breathing pipeline (2-1) is fixedly connected with a fixed plate (2-2), a monitoring block (2-3) is slidably connected with the breathing pipeline (2-1), the monitoring block (2-3) is slidably connected with a first rotating rod (2-4), the first rotating rod (2-4) is rotatably connected with the fixed plate (2-2), the first rotating rod (2-4) is rotatably connected with a first sliding bearing (2-5), the first sliding bearing (2-5) is rotatably connected with a first fixed sliding chute (2-6), the first sliding bearing (2-5) is slidably connected with a bevel gear bracket (2-7), and the first fixed sliding chute (2-6) is fixedly connected with the fixed plate (2-2), a bevel gear shaft IV (2-8) is rotationally connected with a bevel gear bracket (2-7), the bevel gear shaft IV (2-8) is in meshing connection with a bevel gear shaft V (2-9), the bevel gear shaft IV (2-8) is in meshing connection with a bevel gear shaft VI (2-10), the bevel gear shaft V (2-9) is rotationally connected with a fixed plate (2-2), the bevel gear shaft VI (2-10) is fixedly connected with a face gear I (2-11), the face gear I (2-11) is in meshing connection with a straight gear shaft I (2-12), the straight gear shaft I (2-12) is rotationally connected with the fixed plate (2-2), the straight gear shaft I (2-12) is rotationally connected with a bell (2-13), the straight gear shaft I (2-12) is fixedly connected with a ringing sheet (2-14), the straight-tooth shaft I (2-12) is meshed with the straight-tooth shaft II (2-15), the straight-tooth shaft II (2-15) is rotatably connected with the fixed plate (2-2), the straight-tooth shaft II (2-15) is meshed with the end face gear II (2-16), the end face gear II (2-16) is fixedly connected with the half gear shaft (2-17), the half gear shaft (2-17) is rotatably connected with the fixed plate (2-2), the half gear shaft (2-17) is meshed with the rack III (2-18), the rack III (2-18) is slidably connected with the sliding bearing II (2-19), the sliding bearing II (2-19) is rotatably connected with the fixed sliding chute II (2-20), the lug II (2-21) is slidably connected with the rack III (2-18), one end of the spring II (2-22) is contacted with the rack III (2-18), the other end of the second spring (2-22) is contacted with the second bump (2-21).

4. The medical monitoring breathing sleep machine of claim 1, wherein: the sleeping machine device (3) comprises a sleeping machine (3-1), a first lifting support (3-2), a second lifting support (3-3), a fixed base plate (3-4), a third fixed rod (3-5), sliding wheels (3-6), a motor (3-7), a first transmission belt (3-8), a second transmission belt (3-9), a first gear column (3-10), a second gear column (3-11), a gear support (3-12), a pedal (3-13), a pedal support (3-14), a third sliding bearing (3-15), a third fixed sliding groove (3-16), a fourth rack (3-17), a third straight gear column (3-18), a fifth rack (3-19), a control rod (3-20), a gear column (3-21), A cross rod (3-22), a screw rod (3-23), a sleeping machine (3-1) is fixedly connected with a fixed support (1-5) and a rack support (1-9), the sleeping machine (3-1) is rotatably connected with a first lifting support (3-2), the sleeping machine (3-1) is rotatably connected with a second lifting support (3-3), the first lifting support (3-2) is fixedly connected with a second lifting support (3-3), a fixed bottom plate (3-4) is fixedly connected with a third fixed rod (3-5), the third fixed rod (3-5) is fixedly connected with the first lifting support (3-2), a sliding wheel (3-6) is rotatably connected with the fixed bottom plate (3-4), the sliding wheel (3-6) is rotatably connected with the second lifting support (3-3), the motor (3-7) is connected with the transmission belt I (3-8) in a matching way, the transmission belt I (3-8) is connected with the bevel gear shaft II (2-9) in a matching way, the transmission belt II (3-9) is connected with the motor (3-7) in a matching way, the transmission belt II (3-9) is connected with the gear column I (3-10) in a matching way, the gear column I (3-10) is connected with the gear column II (3-11) in a meshing way, the gear column I (3-10) is connected with the gear support (3-12) in a rotating way, the gear column II (3-11) is connected with the gear support (3-12) in a rotating way, the pedal (3-13) is connected with the pedal support (3-14) in a rotating way, the pedal (3-13) is connected with the sliding bearing III (3-15) in a sliding way, the sliding bearing III (3-15) is connected with the fixed sliding chute III (3-16) in a rotating way, a sliding bearing III (3-15) is rotatably connected with a rack IV (3-17), the rack IV (3-17) is meshed with a straight-tooth column III (3-18), the straight-tooth column III (3-18) is rotatably connected with a gear bracket (3-12), the straight-tooth column III (3-18) is meshed with a rack V (3-19), the rack V (3-19) is fixedly connected with a control rod (3-20), the control rod (3-20) is contacted with a gear column (3-21), the gear column (3-21) is slidably connected with a cross rod (3-22), the gear column (3-21) is meshed with a gear column I (3-10), the gear column (3-21) is meshed with a gear column II (3-11), the cross rod (3-22) is fixedly connected with a lead screw (3-23), the screw rods (3-23) are rotatably connected with the third fixing rod (3-5), and the screw rods (3-23) are in threaded connection with the sliding wheels (3-6).

Technical Field

The invention relates to the field of medical appliances, in particular to a medical monitoring breathing type sleeping machine.

Background

Respiratory signals and electrocardiosignals are the most important vital signs of human bodies, and for patients with sleep apnea or infants who are born and certain patients with respiratory system diseases and heart diseases, the breathing and heartbeat conditions of the patients during sleep need to be monitored in real time, and the heart rate change can judge whether the human body is normal or not, so that the monitoring of the breathing and heart rate change of the people during sleep is necessary, in recent years, sleep monitoring instruments are increasingly applied, but the monitoring instruments have a plurality of defects at the same time, a plurality of parameters need to be monitored during monitoring, a plurality of electrodes need to be arranged and a plurality of leads and sensors need to be connected, the operation is complex, the leads are messy, considerable physiological and psychological burden and a plurality of uncomfortable feelings are caused to the people to be detected, the sleep is easily interfered, and the requirements of the people on the product at present can not be met far by the way, for example, a hospital gown for a patient with the respiratory sleep monitoring is disclosed as CN202020636687.9, through setting up temperature sensor, be convenient for monitor patient's body temperature, through setting up the fixed bag of electrode, be convenient for fixed and dismantle the electrode, do not influence patient freely to move on daytime, through setting up pulse sensor, be convenient for monitor its pulse when the patient sleeps, through setting up the siren, it is too slow or too fast at patient's pulse, or when the temperature is higher, can send out the police dispatch newspaper, remind patient oneself or medical personnel, through setting up the battery, be convenient for connect temperature sensor and pulse sensor, reduce patient and electric wire contact, improve the security, but when the patient dresses, can meet the harm that various special cases lead to equipment, lead to unable continuation to detect.

Disclosure of Invention

The invention aims to provide a medical monitoring breathing type sleeping machine, which can adjust the position of a breathing mask through an adjusting device, a monitoring component monitors the breathing of a patient, and the sleeping machine device adjusts the height required by the patient during sleeping.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a medical monitoring respiratory type sleep machine, includes adjusting device, control subassembly, sleep machine device, adjusting device is connected with the control subassembly, and adjusting device is connected with the sleep machine device, and the control subassembly is connected with the sleep machine device.

As a further optimization of the technical scheme, the invention discloses a medical monitoring breathing type sleeping machine, wherein the adjusting device comprises a hand-operated wheel, a first bevel gear shaft, a rotating bracket, an idler wheel, a fixed bracket, a second bevel gear shaft, a first straight gear, a first rack, a rack bracket, a first fixed rod, a groove, a third bevel gear shaft, a bevel gear, a transmission shaft, a second straight gear, a second rack, a second fixed rod, a first bump, a second spring and a breathing mask, the hand-operated wheel is fixedly connected with the first bevel gear shaft, the first bevel gear shaft is rotatably connected with the rotating bracket, the idler wheel is rotatably connected with the first bevel gear shaft, the idler wheel is rotatably connected with the fixed bracket, the idler wheel is rotatably connected with the second bevel gear shaft, the fixed bracket is rotatably connected with the transmission shaft, the second bevel gear shaft is fixedly connected with the first straight gear, the first straight gear is engaged with the rack, and the rack bracket are slidably connected, the first rack is fixedly connected with the first fixing rod, the groove is formed in the first fixing rod, the third bevel gear shaft is fixedly connected with the rotating support, the third bevel gear shaft is meshed with the bevel gear, the bevel gear is fixedly connected with the transmission shaft, the transmission shaft is rotatably connected with the second bevel gear, the transmission shaft is fixedly connected with the second straight gear, the second straight gear is meshed with the second rack, the second rack is fixedly connected with the second fixing rod, the first lug is fixedly connected with the groove, the first lug is slidably connected with the second fixing rod, the first lug is in contact with the second spring, and the respirator is fixedly connected with the second fixing rod.

As a further optimization of the technical scheme, the invention relates to a medical respiration monitoring type sleeping machine, which comprises a respiratory pipeline, a fixed plate, a monitoring block, a rotating rod I, a sliding bearing I, a fixed chute I, a bevel gear bracket, a bevel gear shaft IV, a bevel gear shaft V, a bevel gear shaft VI, a face gear I, a straight gear shaft I, a bell, a sounding sheet, a straight gear shaft II, a face gear II, a semi-gear shaft, a rack III, a sliding bearing II, a fixed chute II, a lug II and a spring II, wherein the respiratory pipeline is fixedly connected with a respiratory mask, the respiratory pipeline is fixedly connected with the fixed plate, the monitoring block is slidably connected with the respiratory pipeline, the monitoring block is slidably connected with the rotating rod I, the rotating rod I is rotatably connected with the fixed plate, the rotating rod I is rotatably connected with the sliding bearing I, the sliding bearing I is slidably connected with the bevel gear bracket, the first fixed chute is fixedly connected with a fixed plate, the fourth bevel gear shaft is rotatably connected with a bevel gear bracket, the fourth bevel gear shaft is in meshed connection with a fifth bevel gear shaft, the fourth bevel gear shaft is in meshed connection with a sixth bevel gear shaft, the fifth bevel gear shaft is rotatably connected with the fixed plate, the sixth bevel gear shaft is rotatably connected with the fixed plate, the first bevel gear shaft is fixedly connected with a first end face gear, the first end face gear is in meshed connection with a first straight gear shaft, the first straight gear shaft is rotatably connected with the fixed plate, the first straight gear shaft is rotatably connected with a bell ring, the first straight gear shaft is fixedly connected with a snap ring, the first straight gear shaft is in meshed connection with a second straight gear shaft, the second straight gear shaft is rotatably connected with the fixed plate, the second straight gear shaft is in meshed connection with a second end face gear, the second end face gear is fixedly connected with a half gear shaft, the half gear shaft is rotatably connected with the fixed plate, the half gear shaft is in meshed connection with a third rack, the third rack is slidably connected with a second sliding bearing, and the second sliding bearing is rotatably connected with the fixed chute, the second bump is connected with the third rack in a sliding mode, one end of the second spring is in contact with the third rack, and the other end of the second spring is in contact with the second bump.

As a further optimization of the technical scheme, the invention relates to a medical respiration monitoring sleeping machine which comprises a sleeping machine, a first lifting support, a second lifting support, a fixed bottom plate, a third fixed rod, a sliding wheel, a motor, a first transmission belt, a second transmission belt, a first gear column, a second gear column, a gear support, a pedal support, a third sliding bearing, a third fixed sliding chute, a fourth rack, a third straight gear column, a fifth rack, a control rod, a first gear column, a cross rod and a screw rod, wherein the sleeping machine is fixedly connected with the fixed support and the rack support, the sleeping machine is rotatably connected with the first lifting support, the first lifting support is fixedly connected with the second lifting support, the fixed bottom plate is fixedly connected with the third fixed rod, the third fixed rod is fixedly connected with the first lifting support, the sliding wheel is rotatably connected with the fixed bottom plate, the sliding wheel is rotatably connected with the second lifting support, the motor is connected with the first transmission belt in a matching way, the first transmission belt is connected with the fifth bevel gear shaft in a matching way, the second transmission belt is connected with the motor in a matching way, the second transmission belt is connected with the first gear column in a matching way, the first gear column is connected with the second gear column in a meshing way, the second gear column is connected with the gear support in a rotating way, the pedal is connected with the pedal support in a rotating way, the pedal is connected with the third sliding bearing in a sliding way, the third sliding bearing is connected with the third fixed chute in a rotating way, the third sliding bearing is connected with the fourth rack in a rotating way, the fourth rack is connected with the third straight gear column in a meshing way, the third straight gear column is connected with the gear support in a rotating way, the third straight gear column is connected with the fifth rack in a meshing way, the fifth rack is fixedly connected with the control rod, the control rod is contacted with the first gear column, the gear column is connected with the first gear column in a sliding way, the gear column is connected with the second gear column in a meshing way, and the cross rod is fixedly connected with the lead screw, the screw rod is rotationally connected with the fixed rod III and is in threaded connection with the sliding wheels.

The medical monitoring breathing type sleeping machine has the beneficial effects that:

the invention relates to a medical monitoring breathing type sleeping machine, wherein an adjusting device drives a bevel gear shaft I to further drive a rack I to slide through the rotation of a hand-operated wheel, so as to adjust the position of a breathing mask, drives a bevel gear by a bevel gear shaft III to further drive a rack II by a straight gear to slide through the rotation of a rotating bracket, so as to adjust the height of the breathing mask, a monitoring component drives the bevel gear shaft IV to be meshed with the bevel gear shaft V and the bevel gear shaft VI through the sliding of a monitoring block, so as to further drive a sound sheet driven by the straight gear shaft I to alarm a patient, the straight gear shaft I drives the straight gear shaft II, so that the rack III slides to drive a lug to inform an alarm bell of two pairs of medical personnel, the sleeping machine drives a rack IV through the rotation of a pedal, so that the rack V drives a control rod to slide, so as to further enable a gear column to slide on a cross rod, the invention can monitor the breath of the patient, ensure the use safety of the device and maximally meet the requirements of the patient.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a first schematic structural diagram of an adjusting device according to the present invention;

FIG. 3 is a schematic view of the structure of the adjusting device of the present invention;

FIG. 4 is a third schematic view of the structure of the adjusting device of the present invention;

FIG. 5 is a fourth schematic view of the structure of the adjusting device of the present invention;

FIG. 6 is a fifth schematic view of the adjusting device of the present invention;

FIG. 7 is a first schematic view of a monitoring assembly according to the present invention;

FIG. 8 is a second schematic structural diagram of a monitoring assembly according to the present invention;

FIG. 9 is a third schematic view of the monitoring assembly of the present invention;

FIG. 10 is a fourth schematic structural view of the monitoring assembly of the present invention;

FIG. 11 is a first schematic structural diagram of a sleep device of the present invention;

FIG. 12 is a second schematic structural diagram of a sleep device of the present invention;

FIG. 13 is a third schematic structural view of a sleeper device of the present invention;

fig. 14 is a fourth schematic structural diagram of the sleeping apparatus of the present invention.

In the figure: an adjustment device 1; 1-1 of a hand-operated wheel; 1-2 of a bevel gear shaft; 1-3 of a rotating bracket; idler wheels 1-4; 1-5 of a fixed support; 1-6 parts of a bevel gear shaft II; 1-7 parts of a straight gear I; 1-8 of a rack I; 1-9 of a rack bracket; 1-10 parts of a fixed rod; 1-11 of a groove; 1-12 parts of a bevel gear shaft; bevel gears 1-13; a drive shaft 1-14; 1-15 parts of a second straight gear; a second rack 1-16; fixing rods II 1-17; 1-18 of the first bump; a second spring 1-19; 1-20 parts of a breathing mask; a monitoring assembly 2; a breathing pipeline 2-1; a fixing plate 2-2; monitoring blocks 2-3; rotating the first rod 2-4; 2-5 parts of a sliding bearing I; a first fixed chute 2-6; bevel gear holders 2-7; 2-8 of a bevel gear shaft; 2-9 parts of a bevel gear shaft; 2-10 parts of a bevel gear shaft; 2-11 parts of a first face gear; 2-12 of a straight gear shaft I; 2-13 of ringing; 2-14 of soundchip; 2-15 parts of a straight gear shaft II; 2-16 parts of a face gear II; half gear shafts 2 to 17; rack three 2-18; sliding bearings II 2-19; 2-20 parts of a fixed chute II; 2-21 parts of a second bump; 2-22 parts of a second spring; a sleep device 3; 3-1 of a sleeping machine; 3-2 of a lifting support I; 3-3 of a second lifting support; 3-4 of a fixed bottom plate; 3-5 parts of a fixing rod III; 3-6 of a sliding wheel; 3-7 of a motor; 3-8 parts of a first transmission belt; 3-9 parts of a second transmission belt; 3-10 parts of a first gear column; 3-11 parts of a second gear column; 3-12 parts of a gear bracket; pedals 3-13; pedal supports 3-14; 3-15 parts of sliding bearing; 3-16 parts of a fixed chute; rack four 3-17; 3-18 parts of straight tooth column; a fifth rack 3-19; 3-20 of a control rod; 3-21 parts of gear column; 3-22 parts of a cross rod; and 3-23 of a lead screw.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the following describes the present embodiment with reference to fig. 1 to 14, and a medical monitoring breathing type sleeping machine includes an adjusting device 1, a monitoring component 2, and a sleeping machine device 3, where the adjusting device 1 is connected to the monitoring component 2, the adjusting device 1 is connected to the sleeping machine device 3, and the monitoring component 2 is connected to the sleeping machine device 3.

The second embodiment is as follows:

the first embodiment is further described with reference to fig. 1-14, and the adjusting device 1 includes a hand-operated wheel 1-1, a first bevel gear shaft 1-2, a rotating bracket 1-3, an idler wheel 1-4, a fixed bracket 1-5, a second bevel gear shaft 1-6, a first spur gear 1-7, a first rack 1-8, a rack bracket 1-9, a first fixed rod 1-10, a groove 1-11, a third bevel gear shaft 1-12, a bevel gear 1-13, a transmission shaft 1-14, a second spur gear 1-15, a second rack 1-16, a second fixed rod 1-17, a first projection 1-18, a second spring 1-19, and a breathing mask 1-20, wherein the hand-operated wheel 1-1 is fixedly connected with the first bevel gear shaft 1-2, the bevel gear shaft I1-2 is rotatably connected with the rotating bracket I1-3, the idler gear 1-4 is meshed with the bevel gear shaft I1-2, the idler gear 1-4 is rotatably connected with the fixed bracket 1-5, the idler gear 1-4 is meshed with the bevel gear shaft II 1-6, the fixed bracket 1-5 is rotatably connected with the bevel gear shaft III 1-12, the fixed bracket 1-5 is rotatably connected with the transmission shaft 1-14, the bevel gear shaft II 1-6 is fixedly connected with the straight gear I1-7, the straight gear I1-7 is meshed with the rack I1-8, the rack I1-8 is slidably connected with the rack bracket 1-9, the rack I1-8 is fixedly connected with the fixed rod I1-10, the groove 1-11 is arranged on the fixed rod I1-10, and the bevel gear shaft III 1-12 is fixedly connected with the rotating bracket 1-3, the third bevel gear shaft 1-12 is meshed with the first bevel gear shaft 1-13, the first bevel gear shaft 1-13 is fixedly connected with the transmission shaft 1-14, the transmission shaft 1-14 is rotatably connected with the second bevel gear shaft 1-6, the transmission shaft 1-14 is fixedly connected with the second straight gear shaft 1-15, the second straight gear shaft 1-15 is meshed with the second rack 1-16, the second rack 1-16 is fixedly connected with the second fixed rod 1-17, the first bump 1-18 is fixedly connected with the groove 1-11, the first bump 1-18 is slidably connected with the second fixed rod 1-17, the first bump 1-18 is contacted with the second spring 1-19, and the breathing mask 1-20 is fixedly connected with the second fixed rod 1-17;

the medical staff shakes the hand-operated wheel 1-1, the hand-operated wheel 1-1 is connected with the bevel gear shaft 1-2, so that the bevel gear shaft 1-2 rotates in the rotating support 1-3, the bevel gear shaft 1-2 rotates and then is meshed with the idle gear 1-4, the idle gear 1-4 drives the bevel gear shaft II 1-6 to rotate, the fixed support 1-5 fixes the idle gear 1-4, the bevel gear shaft III 1-12 and the bevel gear 1-13, the bevel gear shaft II 1-6 rotates and then drives the straight gear 1-7 to be meshed with the rack I1-8, so that the rack I1-8 slides on the rack support 1-9, the rack I1-8 is connected with the fixed rod I1-10, the breathing mask 1-20 moves back and forth after the rack I1-8 slides, the heights of different patients are adjusted, when a medical worker rotates a rotary support 1-3, the rotary support 1-3 rotates by taking a third bevel gear shaft 1-12 as a circle center, the rotary support 1-3 is connected with the third bevel gear shaft 1-12, the rotary support 1-3 drives the third bevel gear shaft 1-12 to be meshed with a bevel gear 1-13 after rotating a fixed support 1-5, the first bevel gear shaft 1-2 on the rotary support 1-3 rotates to not drive an idle gear 1-4 when the third bevel gear shaft 1-12 drives the bevel gear 1-13 to rotate, the bevel gear 1-13 is connected with a transmission shaft 1-14, the transmission shaft 1-14 is connected with a second straight gear 1-15, the bevel gear 1-13 drives the transmission shaft 1-14 to rotate on the second bevel gear shaft 1-6, the second straight gear 1-15 is driven to rotate, so that the second straight gear 1-15 is meshed with the second rack 1-16, the second rack 1-16 is driven to slide up and down, the second rack 1-16 is connected with the second fixing rod 1-17, the first lug 1-18 is driven to compress the second spring 1-19 after the second rack 1-16 slides, the first lug 1-18 is fixed in the groove 1-11, the second fixing rod 1-17 is connected with the breathing mask 1-20, and the height of the breathing mask 1-20 is adjusted after the second rack 1-16 drives the second fixing rod 1-17 to slide.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1-14, and the embodiment further describes a first embodiment, wherein the monitoring assembly 2 comprises a breathing pipeline 2-1, a fixed plate 2-2, a monitoring block 2-3, a rotating rod 2-4, a sliding bearing 2-5, a fixed sliding chute 2-6, a bevel gear bracket 2-7, a bevel gear shaft four 2-8, a bevel gear shaft five 2-9, a bevel gear shaft six 2-10, a face gear first 2-11, a straight gear shaft first 2-12, a bell 2-13, a sound piece 2-14, a straight gear shaft second 2-15, a face gear second 2-16, a half gear shaft 2-17, a rack third 2-18, a sliding bearing second 2-19, a fixed sliding chute second 2-20, a lug second 2-21 and a spring second 2-22, a breathing pipeline 2-1 is fixedly connected with a breathing mask 1-20, the breathing pipeline 2-1 is fixedly connected with a fixed plate 2-2, a monitoring block 2-3 is slidably connected with the breathing pipeline 2-1, the monitoring block 2-3 is slidably connected with a rotating rod one 2-4, the rotating rod one 2-4 is rotatably connected with the fixed plate 2-2, the rotating rod one 2-4 is rotatably connected with a sliding bearing one 2-5, the sliding bearing one 2-5 is rotatably connected with a fixed sliding chute one 2-6, the sliding bearing one 2-5 is slidably connected with a bevel gear bracket 2-7, the fixed sliding chute one 2-6 is fixedly connected with the fixed plate 2-2, a bevel gear shaft four 2-8 is rotatably connected with the bevel gear bracket 2-7, the bevel gear shaft four 2-8 is meshed with a bevel gear shaft five 2-9, the fourth 2-8 of the bevel gear shaft is meshed with the sixth 2-10 of the bevel gear shaft, the fifth 2-9 of the bevel gear shaft is rotationally connected with the fixed plate 2-2, the sixth 2-10 of the bevel gear shaft is fixedly connected with the first 2-11 of the face gear, the first 2-11 of the face gear is meshed with the first 2-12 of the straight gear shaft, the first 2-12 of the straight gear shaft is rotationally connected with the fixed plate 2-2, the first 2-12 of the straight gear shaft is rotationally connected with the bell 2-13, the first 2-12 of the straight gear shaft is fixedly connected with the soundchip 2-14, the first 2-12 of the straight gear shaft is meshed with the second 2-15 of the straight gear shaft, the second 2-15 of the straight gear shaft is rotationally connected with the fixed plate 2-2, and the second 2-15 of the straight gear shaft is meshed with the second 2-16 of the face gear, the end face gear II 2-16 is fixedly connected with the half gear shaft 2-17, the half gear shaft 2-17 is rotatably connected with the fixed plate 2-2, the half gear shaft 2-17 is meshed with the rack III 2-18, the rack III 2-18 is slidably connected with the sliding bearing II 2-19, the sliding bearing II 2-19 is rotatably connected with the fixed sliding chute II 2-20, the lug II 2-21 is slidably connected with the rack III 2-18, one end of the spring II 2-22 is contacted with the rack III 2-18, and the other end of the spring II 2-22 is contacted with the lug II 2-21;

the breathing pipeline 2-1 is fixed on the breathing mask 1-20, the breathing pipeline 2-1 circulates the air in the breathing mask 1-20, the fixed plate 2-2 fixes the monitoring component, the monitoring block 2-3 monitors the breath of the patient, when the patient breaks out of a disease, the monitoring block 2-3 slides downwards to drive the rotating rod one 2-4 to rotate, the rotating rod one 2-4 rotates to drive the sliding bearing one 2-5, so that the sliding bearing one 2-5 rotates in the fixed sliding groove one 2-6, the sliding bearing one 2-5 drives the bevel gear bracket 2-7 to slide, the bevel gear bracket 2-7 is provided with a bevel gear shaft four 2-8, after the bevel gear bracket 2-7 drives the bevel gear shaft four 2-8 to slide, 2-8 parts of a bevel gear shaft and 2-9 parts of a bevel gear shaft; 2-10 of a bevel gear shaft are meshed and connected, so that a fifth bevel gear shaft 2-9 drives a fourth bevel gear shaft 2-8 to rotate, a fourth bevel gear shaft 2-8 drives a sixth bevel gear shaft 2-10 to rotate, the sixth bevel gear shaft 2-10 is connected with a first end face gear 2-11, the first end face gear 2-11 is driven to be meshed with a first straight gear shaft 2-12 after the sixth bevel gear shaft 2-10 rotates, the first straight gear shaft 2-12 is connected with a sounding sheet 2-14, the sounding sheet 2-14 is controlled to rotate in a bell 2-13 after the first straight gear shaft 2-12 rotates, the bell 2-13 is knocked to give an alarm, the first straight gear shaft 2-12 is meshed with a second straight gear shaft 2-15, the second straight gear shaft 2-15 is driven to rotate after the first straight gear shaft 2-12 rotates, the second straight gear shaft 2-15 rotates to drive the second end face gear 2-16, the end face gear II 2-16 is connected with the half gear shaft 2-17, after the end face gear II 2-16 rotates, the half gear shaft 2-17 is driven to be meshed with the rack III 2-18, the rack III 2-18 is driven to slide, the rack III 2-18 drives the sliding bearing II 2-19 to rotate in the fixed sliding groove II 2-20, the lug II 2-21 compresses the spring II 2-22 to inform an alarm bell of medical personnel, when a patient breathes normally, the monitoring block 2-3 floats, the monitoring block 2-3 drives the rotating rod I2-4, the bevel gear support 2-7 drives the bevel gear shaft IV 2-8 to be disconnected from the bevel gear shaft V2-9 and the bevel gear shaft VI 2-10 to be meshed, and accordingly the alarm device is disconnected.

The fourth concrete implementation mode:

the first embodiment is further described with reference to fig. 1-14, and the sleeping device 3 includes a sleeping machine 3-1, a first lifting bracket 3-2, a second lifting bracket 3-3, a fixed base plate 3-4, a fixed rod three 3-5, a sliding wheel 3-6, a motor 3-7, a first transmission belt 3-8, a second transmission belt 3-9, a first gear column 3-10, a second gear column 3-11, a gear bracket 3-12, a pedal 3-13, a pedal bracket 3-14, a sliding bearing three 3-15, a fixed sliding chute three 3-16, a rack four 3-17, a straight gear column three 3-18, a rack five 3-19, a control rod 3-20, a gear column 3-21, and a cross rod 3-22, A screw rod 3-23, a sleeping machine 3-1 is fixedly connected with a fixed support 1-5 and a rack support 1-9, the sleeping machine 3-1 is rotatably connected with a first lifting support 3-2, the sleeping machine 3-1 is rotatably connected with a second lifting support 3-3, the first lifting support 3-2 is fixedly connected with a second lifting support 3-3, a fixed bottom plate 3-4 is fixedly connected with a third fixed rod 3-5, the third fixed rod 3-5 is fixedly connected with the first lifting support 3-2, a sliding wheel 3-6 is rotatably connected with the fixed bottom plate 3-4, the sliding wheel 3-6 is rotatably connected with the second lifting support 3-3, a motor 3-7 is connected with a first transmission belt 3-8 in a matching way, the first transmission belt 3-8 is connected with a fifth bevel gear shaft 2-9 in a matching way, a second transmission belt 3-9 is connected with a motor 3-7 in a matching way, a second transmission belt 3-9 is connected with a first gear column 3-10 in a matching way, the first gear column 3-10 is connected with a second gear column 3-11 in a meshing way, the first gear column 3-10 is connected with a gear bracket 3-12 in a rotating way, the second gear column 3-11 is connected with the gear bracket 3-12 in a rotating way, a pedal 3-13 is connected with a pedal bracket 3-14 in a rotating way, the pedal 3-13 is connected with a third sliding bearing 3-15 in a sliding way, the third sliding bearing 3-15 is connected with a third fixed sliding chute 3-16 in a rotating way, the third sliding bearing 3-15 is connected with a fourth rack 3-17 in a rotating way, the fourth rack 3-17 is connected with a third straight-toothed column 3-18 in a meshing way, the third straight-toothed column 3-18 is connected with the gear bracket 3-12 in a rotating way, the third straight toothed column 3-18 is meshed with the fifth rack 3-19, the fifth rack 3-19 is fixedly connected with the control rod 3-20, the control rod 3-20 is contacted with the second gear column 3-21, the second gear column 3-21 is slidably connected with the cross rod 3-22, the first gear column 3-21 is meshed with the first gear column 3-10, the second gear column 3-21 is meshed with the second gear column 3-11, the cross rod 3-22 is fixedly connected with the lead screw 3-23, the lead screw 3-23 is rotatably connected with the third fixed rod 3-5, and the lead screw 3-23 is in threaded connection with the sliding wheel 3-6.

The invention relates to a medical monitoring breathing type sleeping machine, which has the working principle that: the medical staff shakes the hand-operated wheel 1-1, the hand-operated wheel 1-1 is connected with the bevel gear shaft 1-2, so that the bevel gear shaft 1-2 rotates in the rotating support 1-3, the bevel gear shaft 1-2 rotates and then is meshed with the idle gear 1-4, the idle gear 1-4 drives the bevel gear shaft II 1-6 to rotate, the fixed support 1-5 fixes the idle gear 1-4, the bevel gear shaft III 1-12 and the bevel gear 1-13, the bevel gear shaft II 1-6 rotates and then drives the straight gear 1-7 to be meshed with the rack I1-8, so that the rack I1-8 slides on the rack support 1-9, the rack I1-8 is connected with the fixed rod I1-10, the breathing mask 1-20 moves back and forth after the rack I1-8 slides, the heights of different patients are adjusted, when a medical worker rotates a rotary support 1-3, the rotary support 1-3 rotates by taking a third bevel gear shaft 1-12 as a circle center, the rotary support 1-3 is connected with the third bevel gear shaft 1-12, the rotary support 1-3 drives the third bevel gear shaft 1-12 to be meshed with a bevel gear 1-13 after rotating a fixed support 1-5, the first bevel gear shaft 1-2 on the rotary support 1-3 rotates to not drive an idle gear 1-4 when the third bevel gear shaft 1-12 drives the bevel gear 1-13 to rotate, the bevel gear 1-13 is connected with a transmission shaft 1-14, the transmission shaft 1-14 is connected with a second straight gear 1-15, the bevel gear 1-13 drives the transmission shaft 1-14 to rotate on the second bevel gear shaft 1-6, the second straight gear 1-15 is driven to rotate, the second straight gear 1-15 is meshed with the second rack 1-16, the second rack 1-16 is driven to slide up and down, the second rack 1-16 is connected with the second fixed rod 1-17, the first lug 1-18 is driven to compress the second spring 1-19 after the second rack 1-16 slides, the first lug 1-18 is fixed in the groove 1-11, the second fixed rod 1-17 is connected with the breathing mask 1-20, the height of the breathing mask 1-20 is adjusted after the second rack 1-16 drives the second fixed rod 1-17 to slide, the breathing pipeline 2-1 is fixed on the breathing mask 1-20, the breathing pipeline 2-1 is used for circulating air in the breathing mask 1-20, and the monitoring component is fixed by the fixed plate 2-2, the monitoring block 2-3 monitors the breath of a patient, when the patient breaks down suddenly, the monitoring block 2-3 slides down to drive the first rotating rod 2-4 to rotate, the first rotating rod 2-4 rotates to drive the first sliding bearing 2-5, so that the first sliding bearing 2-5 rotates in the first fixed sliding chute 2-6, the first sliding bearing 2-5 drives the bevel gear bracket 2-7 to slide, the bevel gear bracket 2-7 is provided with a fourth bevel gear shaft 2-8, and after the bevel gear bracket 2-7 drives the fourth bevel gear shaft 2-8 to slide, the fourth bevel gear shaft 2-8 and the fifth bevel gear shaft 2-9; 2-10 of a bevel gear shaft are meshed and connected, so that a fifth bevel gear shaft 2-9 drives a fourth bevel gear shaft 2-8 to rotate, a fourth bevel gear shaft 2-8 drives a sixth bevel gear shaft 2-10 to rotate, the sixth bevel gear shaft 2-10 is connected with a first end face gear 2-11, the first end face gear 2-11 is driven to be meshed with a first straight gear shaft 2-12 after the sixth bevel gear shaft 2-10 rotates, the first straight gear shaft 2-12 is connected with a sounding sheet 2-14, the sounding sheet 2-14 is controlled to rotate in a bell 2-13 after the first straight gear shaft 2-12 rotates, the bell 2-13 is knocked to give an alarm, the first straight gear shaft 2-12 is meshed with a second straight gear shaft 2-15, the second straight gear shaft 2-15 is driven to rotate after the first straight gear shaft 2-12 rotates, the second straight gear shaft 2-15 rotates to drive the second end face gear 2-16, the end face gear II 2-16 is connected with the half gear shaft 2-17, after the end face gear II 2-16 rotates, the half gear shaft 2-17 is driven to be meshed with the rack III 2-18, the rack III 2-18 is driven to slide, the rack III 2-18 drives the sliding bearing II 2-19 to rotate in the fixed sliding chute II 2-20, the lug II 2-21 compresses the spring II 2-22 to inform the alarm bell of medical personnel, when the patient breathes normally, the monitoring block 2-3 floats, the monitoring block 2-3 drives the rotating rod I2-4, the bevel gear support 2-7 drives the bevel gear shaft IV 2-8 to be disconnected and meshed with the bevel gear shaft V2-9 and the bevel gear shaft VI 2-10, so that the alarm device is disconnected, and the sleeping machine 3-1 is in a rest position for the patient, the height of the sleeping machine 3-1 is adjusted by sliding the lifting support I3-2 and the lifting support II 3-3, the fixed bottom plate 3-4 is connected with the fixed rod III 3-5, the fixed rod III 3-5 is connected with the lifting support I3-2, the sliding roller 3-6 is connected with the lifting support II 3-3, the height of the sleeping machine 3-1 is adjusted by rotating the sliding roller 3-6 on the fixed bottom plate 3-4, the motor 3-7 outputs the whole device, the driving belt I3-8 is connected with the motor 3-7 and the bevel gear shaft V2-9 in a matching way, the motor 3-7 drives the driving belt I3-8 to transmit, so that the driving belt I3-8 drives the bevel gear shaft V2-9 to rotate, thereby driving the alarm device, the transmission belt II 3-9 is connected with the motor 3-7 and the gear column I3-10 in a matching way, the motor 3-7 drives the transmission belt II 3-9 to rotate, the transmission belt II 3-9 drives the gear column I3-10 to rotate, the gear column I3-10 drives the gear column II 3-11 to rotate after rotating, a patient can enable the pedal 3-13 to rotate in the pedal bracket 3-14 by stepping on the pedal 3-13, the sliding bearing III 3-15 is driven to rotate in the fixed sliding chute III 3-16 after the pedal 3-13 rotates, the sliding bearing III 3-15 drives the rack IV 3-17 to slide up and down, the straight gear column III 3-18 is driven to rotate after the rack IV 3-17 slides, the straight gear column III 3-18 drives the rack IV 3-19 after rotating, the rack five 3-19 is connected with the control rod 3-20, so that the rack five 3-19 drives the control rod 3-20 to slide after sliding, the control rod 3-20 drives the gear column 3-21 to slide in the cross rod 3-22 after sliding, the cross rod 3-22 is connected with the lead screw, when the gear column 3-21 is meshed with the gear column one 3-10 after sliding, the gear column 3-21 drives the cross rod 3-22 to enable the lead screw 3-23 to rotate positively, the lead screw 3-23 is connected with the sliding wheel 3-6 through screw threads after rotating, so that the sleeping machine 3-1 is lifted, when the gear column 3-21 is meshed with the gear column two 3-11 after sliding, the gear column 3-21 drives the cross rod 3-22 to enable the lead screw 3-23 to rotate reversely, after the screw rod 3-23 rotates, the screw rod is in threaded connection with the sliding wheels 3-6, so that the sleeping machine 3-1 is lowered to meet the requirements of patients.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.