CN117899313B - Neonate atomizing treatment facility auxiliary device - Google Patents

Abstract

The invention relates to the technical field of medical equipment, in particular to an auxiliary device of neonatal atomization treatment equipment, which comprises: the invention discloses a spray gun for spraying an atomized treatment face of an infant, which aims to prevent the loss of the face of the infant caused by a traditional mask in the atomization treatment process, and improve the comfort and safety of the infant and the atomization treatment effect.

Description

Neonate atomizing treatment facility auxiliary device

Technical Field

The invention relates to the technical field of medical equipment, in particular to an auxiliary device of neonatal atomization treatment equipment.

Background

While traditional mask-type devices commonly used by adults to provide necessary respiratory support are of great benefit when they are subjected to nebulization therapy, in the event of respiratory challenges such as infection, asthma, pneumonia and bronchitis, such devices present considerable risks and potential side effects when they are used by infants, in particular, the pressure exerted by the mask may cause skin damage or even pressure sores on the fragile infant cheeks or noses, and in addition, the infant may cause a strong discomfort to the mask due to young age, resulting in crying and anxiety, which not only affects the smooth progress of nebulization therapy, but also gives additional psychological stress to small patients, thus requiring special consideration and adjustment of the device usage to ensure comfort and safety of the infant while administering nebulization therapy to the infant;

Furthermore, given that the muscles and neck of the newborn are not yet fully developed, maintaining proper support is critical, and at the same time, frequent people in the hospital are crowded, parents need to pay extra attention to prevent the baby from being accidentally squeezed, holding the baby for a long time, especially in crowded environments, which may lead to fatigue and pain of the parents' arms and shoulders, in which case the stroller, while providing a safe movement space for the baby, may appear cumbersome and not portable in the hospital.

Disclosure of Invention

The invention aims to provide an auxiliary device of neonatal atomization treatment equipment, which solves the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: a neonatal nebulization treatment device aid, comprising: the novel elastic rope comprises two keel mechanisms, connecting rods, nozzles, elastic ropes and a film coating, wherein the two keel mechanisms are in arc-shaped structures and are in mirror image distribution, the two nozzles are arranged at the top of the arc of the two keel mechanisms in a centered mode, the at least two connecting rods are hinged end to end, the connecting rods are hinged to form the connecting rod mechanisms, two ends of the connecting rod mechanisms are connected with the two nozzles respectively, the two elastic ropes are arranged in two, the two elastic ropes are in mirror image arrangement at the bottom ends of the two keel mechanisms, the film coating is sleeved on the two keel mechanisms, and the bottom edge of the film coating is arranged on the elastic ropes.

Preferably, the keel mechanism comprises: the support rod comprises two support rods, teeth, a loop bar and tooth grooves, wherein the two support rods are respectively inserted into the two ends of the loop bar at the top ends of the support rods, the teeth are arranged on the outer wall of the support rods, and the tooth grooves are formed in the positions corresponding to the inner wall of the loop bar.

Preferably, the device further comprises a main substrate, and is characterized by further comprising: the device comprises a main base plate, a first connecting pipe, a second connecting pipe, a side wing plate and a fixing device, wherein the first connecting pipe is arranged on the side part of the main base plate;

The fixing device includes: dead lever, reed, spacing ring, top ring and solid fixed ring, the dead lever slides and sets up in first connecting pipe and second connecting pipe, and can not rotate relatively between the first connecting pipe, the reed sets up in the outer wall of dead lever, the quantity of spacing ring is two, two the spacing ring coaxial set up in the inner wall of second connecting pipe, and two the spacing ring is located the both sides of reed, the solid fixed ring sets up in the one end of the inner wall of second connecting pipe, the top ring sets up on the outer wall of dead lever, and is located one side of solid fixed ring.

Preferably, the reed is of an annular horn-shaped structure and can be turned forward and backward along the axis direction of the reed.

Preferably, the diameter of the reed is smaller than the inner diameter of the first connecting pipe and larger than the inner diameters of the two limiting rings, and the distance between the two limiting rings is slightly larger than the thickness of the reed.

Preferably, a plurality of protrusions are arranged on the end face, pointing to the fixing ring, of the top ring, and a plurality of grooves are formed in the corresponding position of the fixing ring.

Preferably, the number of the side wing plates is at least two, the number of the fixing devices is matched with the number of the side wing plates, at least two side wing plates are distributed on two sides of the main base plate in a mirror image mode, and the corresponding fixing devices are distributed on two sides of the main base plate in a central symmetry mode.

Preferably, the device further comprises an adjusting device, the adjusting device comprising: the device comprises a first wire wheel, a first driving wheel, a second wire wheel, a second driving wheel, a driving belt, traction ropes and a spanner, wherein the first driving wheel and the first wire wheel are coaxially arranged and rotatably mounted on the bottom surface of a main substrate, the second driving wheel and the second wire wheel are coaxially arranged and rotatably mounted on the bottom surface of the main substrate, the driving belt is sleeved on the outer walls of the first driving wheel and the second driving wheel, the spanner is arranged on the outer end surface of the first wire wheel, the number of the traction ropes is at least four, the first ends of the at least four traction ropes are respectively arranged on the outer walls of the first driving wheel and the second driving wheel, and the second ends of the at least four traction ropes are respectively arranged on corresponding fixing devices.

Preferably, two traction ropes of the at least four traction ropes are arranged on the outer wall of the first wire wheel, and the other two traction ropes are arranged on the outer wall of the second wire wheel.

Preferably, two through holes are formed in the second connecting pipe, the second end penetrating through holes of the traction rope are formed in the outer wall of the fixing rod, and auxiliary blocks are arranged on the top surface of the side wing plate at positions corresponding to the two through holes.

The auxiliary device for the neonatal atomization treatment equipment provided by the invention has the beneficial effects that:

1. According to the invention, the two keel mechanisms are matched with the tectorial membrane to form the atomization cavity, so that the head of an infant is positioned in the atomization cavity, and the infant can carry out atomization treatment during spontaneous breathing, so that the discomfort of the infant is reduced compared with the traditional mask, and the atomization effect is affected;

2. the invention can adjust the output quantity of the nozzle through the connecting rod mechanism while adjusting the distance between the two keel mechanisms, thereby improving the applicability of the device and meeting the requirements of infants with different body lengths and ages;

3. the invention uses the main base plate as the main carrier, uses at least two side wing plates as lateral supports, uses the fixing device to fix the angles of the side wing plates, therefore, a stable storage space for the baby is formed, and the damage to the baby caused by external extrusion is avoided;

4. the invention can form wrapping ranges with different sizes by utilizing the side wing plate with adjustable angle, is applicable to infants with different sizes, and can provide proper wrapping performance for infants while providing stable storage space;

5. According to the invention, the side wall surfaces on two sides of the main substrate can be sequentially fixed by the multi-angle rotary wrench, the side wing plate positioned on the outermost side can be turned to be vertically downward when the detection is carried out by utilizing the point, the state of the side wing plate positioned on the outermost side is fixed by utilizing the fixing device, so that the side wing plate on the outermost side plays a supporting role, a detection platform is formed, and an infant is displayed on the surface of the main substrate as much as possible, thereby being more beneficial to the detection of doctors;

6. the auxiliary device can be used for buckling the earmuffs on the ears of the infants, so that the influence on the ears of the infants is avoided when the detection with high noise is performed, and meanwhile, the infants can be kept quiet to a certain extent;

7. meanwhile, the main base plate can be fixed by using the binding belt, and the device is obliquely carried on the shoulder by using the binding belt, so that the fatigue and pain of joints, such as the elbow and muscles of parents are reduced.

Drawings

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

FIG. 2 is a schematic view of an auxiliary device according to the present invention;

FIG. 3 is a partial cross-sectional view of an auxiliary device of the present invention;

FIG. 4 is a bottom view of the present invention;

FIG. 5 is a schematic view of a fastening device according to the present invention;

FIG. 6 is a first partial schematic view of the fastening device of the present invention;

FIG. 7 is a second partial schematic view of the fastening device of the present invention;

FIG. 8 is a schematic view of a regulating device according to the present invention;

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

figure 10 is a schematic view of a keel mechanism according to the invention.

In the figure: 11. a main base plate, 12, a first connecting pipe, 21, a flank plate, 221, a second connecting pipe, 222, a through hole, 3, a fixing device, 31, a fixing rod, 32, a reed, 33, a ring, 341, a top ring, 342, a protrusion, 351, a fixing ring, 352, a groove, 4, an adjusting device, 41, a first reel, 42, a first drive wheel, 43, a second reel, 44, a second drive wheel, 45, a drive belt, 46, a hauling rope, 47, a spanner, 48, an auxiliary block, 5, an auxiliary device, 501, a first-stage sleeve, 502, a secondary sleeve, 503, a bracket, 504, a shaft tube, 5051, a limiting block, 5052, a through groove, 506, an adjusting block, 5071, an inserting handle, 5072, an inserting groove, 508, an earmuff, 509, a top block, 510, an inserting rod, 511, an inserting block, 512, an elastic piece, 513, a pushing block, 6, a rope fastener, 71, a clamping groove, 72, a baffle, 8, a mask device, 81, a keel mechanism, 811, a supporting rod, 812, teeth, 813, a loop bar, 814, a tooth socket, 815, an inserting plate, 82, a connecting rod, 83, a nozzle, 84, an elastic rope, 85 and a covering film.

Detailed Description

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

Referring to fig. 1-10, the present invention provides an auxiliary device for neonatal atomization treatment equipment, which is a detailed connection means, and is known in the art, and the following mainly describes the working principle and process, and the specific working is as follows.

A neonatal nebulization treatment device aid, comprising: the two keel mechanisms 81 are in arc-shaped structures and are distributed in mirror images, the two nozzles 83 are arranged at the arc tops of the two keel mechanisms 81 in the middle, the at least two connecting rods 82 are hinged end to form a connecting rod mechanism, two ends of the connecting rod mechanism are respectively connected with the two nozzles 83, the two elastic ropes 84 are arranged at the bottom ends of the two keel mechanisms 81 in a mirror image mode, the two keel mechanisms 81 are sleeved with the covering films 85, the bottom edges of the covering films 85 are arranged on the elastic ropes 84, the keel mechanisms 81 are supporting frameworks of the covering films 85, an atomizing chamber is formed by matching the covering films 85 with the keel mechanisms 81 in a proper size, the keel mechanisms 81 can be elastically deformed, the size of the atomizing chamber can be changed by utilizing the characteristic of self deformability, so that the atomizing chamber is suitable for newborns in different age groups, the elastic rope 84 is arranged between the two bottom ends of the keel mechanism 81, the covering film 85 is in a hemispherical-like structure, the bottom edge of the covering film 85 is arranged on the elastic rope 84, when the elastic rope 84 is abutted against the body of a newborns, the elastic rope 84 deforms, the tightness of the atomizing chamber can be ensured to a certain extent, the covering film 85, the keel mechanism 81 and the elastic rope 84 can be connected in an adhesive manner, the atomizing chamber comprises but not limited to the manner, the covering film 85 is replaced after being used, the cross infection and other conditions are avoided, the top end of the nozzle 83 is connected with the existing medicine atomizing source, the atomizing source is in the prior art, the feeding amount of medicine can be monitored and controlled, the bottom end of the nozzle 83 is the output end, the medicine can be atomized and dispersed in the atomizing chamber, meanwhile, the output quantity of the nozzles 83 can be changed by rotating the bottom ends of the nozzles 83, the nozzles 83 are in the prior art, two ends of a connecting rod 82 mechanism formed by mutually hinging at least two links are respectively arranged on the outer wall of the nozzles 83, when the distance between the two keel mechanisms 81 is changed, the angle between the at least two connecting rods 82 is changed, and simultaneously the two ends of the connecting rod 82 mechanism rotate, so that the aim of changing the output quantity of the nozzles 83 is fulfilled, and when the at least two connecting rods 82 are on the same straight line, namely, the distance between the two keel mechanisms 81 is the largest, the output quantity of the two nozzles 83 is the largest, otherwise, the output quantity of the two nozzles 83 is the smallest;

The keel mechanism 81 includes: the number of the support rods 811, the teeth 812, the sleeve rod 813 and the tooth grooves 814 are two, the top ends of the two support rods 811 are respectively inserted into two ends of the sleeve rod 813, the teeth 812 are arranged on the outer wall of the support rods 811, the tooth grooves 814 are formed in positions corresponding to the inner wall of the sleeve rod 813, the two support rods 811 can be elastically deformed, the bottom ends of the two support rods 811 are provided with C-shaped insertion plates 815, the C-shaped insertion plates 815 can be inserted into the side wing plates 21, so that the detachable connection relation between the keel mechanism 81 and the side wing plates 21 is realized, the deformation capability of the two support rods 811 is utilized, under the condition that the side wing plates 21 on two sides of the main base plate 11 are positioned at different angles, the keel mechanism 81 can still meet the requirement, the sleeve rod 813 runs through two ends of the sleeve rod 813 in the extending direction of the self-base plate, the top ends of the two support rods 811 are provided with auxiliary grooves, the auxiliary grooves are positioned in the auxiliary grooves, the size of the auxiliary grooves is larger than the size of the two support rods 811, when the two support rods 811 are not applied with external force, the relative positions of the two support rods 811 and the sleeve rod 813 can be adjusted through slight shaking, so that the two support rods 811 can be meshed with the support rods 21 to the two support rods 811, the appropriate bending effect of the two support rods can be realized, the two side wing plates can be meshed with the two support rods 811, and the appropriate external force can be applied to the two support rods 811, and the appropriate bending effect can be realized, and the two side wings, and the end plate seat part, and the external force can be applied to the key rod 811, and the auxiliary support rods can have the external force;

Further comprises: the main base plate 11, first connecting pipe 12, second connecting pipe 221, flank 21 and fixing device 3, main base plate 11 and flank 21 are rectangular platy structure, for the comfort that improves the baby, the top surface of main base plate 11 and flank 21 adopts the arcwall face, make between main base plate 11 and flank 21 and the baby laminating more, first connecting pipe 12 sets up on the lateral wall on the long limit of main base plate 11, second connecting pipe 221 sets up on the long limit lateral wall of flank 21, fixing device 3 installs in first connecting pipe 12 and second connecting pipe 221, make and form articulated relation between main base plate 11 and the flank 21, the articulated position of both is located the long limit of main base plate 11 and the long limit of flank 21, the bottom detachable of fossil fragments mechanism 81 is installed on flank 21, fixing device 3 includes: the fixed rod 31, the reed 32, the limiting rings 33, the top ring 341 and the fixed ring 351, the fixed rod 31 is arranged in the first connecting pipe 12 and the second connecting pipe 221 in a sliding way, the reed 32 is arranged on the outer wall of the fixed rod 31, the number of the limiting rings 33 is two, the two limiting rings 33 are coaxially arranged on the inner wall of the second connecting pipe 221, the two limiting rings 33 are positioned on two sides of the reed 32, the fixed ring 351 is arranged at one end of the inner wall of the second connecting pipe 221, the top ring 341 is arranged on the outer wall of the fixed rod 31 and positioned on one side of the fixed ring 351, the main base plate 11 is a main bearing body of a neonate, the side wing plates 21 are lateral supporting bodies of the neonate, the angle of the side wing plates 21 can be adjusted according to the size of the neonate, the neonate is firstly slowly placed on the main base plate 11, then the device and the infant are held up simultaneously by both hands from both sides of the main base plate 11, the opposite extrusion of the side wing plates 21 by the two arms is utilized to change the angle of the side wing plates 21, the side wing plates 21 are attached to the infant, the angle of the side wing plates 21 is fixed by adjusting the state of the fixing rods 31, a stable space is formed in sequence for the neonate to use, cushion layers are paved on the top surfaces of the main base plate 11 and the side wing plates 21, sponge and other materials can be adopted to enable the main base plate 11 and the side wing plates 21 to be softer, better support is provided for the positions of the vertebrae and the like of the infant, the length of the main base plate 11 is greater than the length of the side wing plates 21, the tail end of the main base plate 11 and the tail end of the side wing plates 21 are positioned on the same plane, the head end of the main base plate 11 is provided with the auxiliary device 5 for protecting the neonate's ear, the neonate's ear is prevented from being damaged at the position with high noise, the top surface of the main base plate 11 near the tail end and the top surface of the side wing plate 21 near the tail end are respectively provided with a plurality of clamping grooves 71, the first ends of the baffle plates 72 are clamped in the clamping grooves 71, the baffle plates 72 are of arc structures, the baffle plates 72 can be clamped at different positions along the extending direction of the main base plate 11, the number of the baffle plates 72 can be changed according to the bending angle of the side wing plate 21, if the bending angle of the side wing plate 21 is larger, the number of the baffle plates 72 can be reduced, otherwise, the number of the baffle plates 72 can be increased, the bottom end of the device is blocked, the baby is prevented from sliding from the bottom end of the device, meanwhile, the number of the first connecting pipes 12 can be two according to the body length of the baby, the two first connecting pipes 12 can be symmetrically positioned at two sides of the second connecting pipes 221, the two ends of the fixing device 3 are positioned in the two first connecting pipes 12, the middle position of the fixing device 3 is positioned in the second connecting pipes 221, when the number of the side wing plates 21 on the same side of the main substrate 11 is larger than one, the first connecting pipe 12, the second connecting pipe 221 and the fixing device 3 are adopted between the two adjacent side wing plates 21, so that the two adjacent side wing plates 21 realize a hinged relation, wherein the fixing rod 31 can displace in the first connecting pipe 12 and the second connecting pipe 221 along the axis of the fixing rod 31 but cannot rotate, the displaceable distance of the fixing rod 31 is the deformation distance of the reed 32 between the two limiting rings 33, when the fixing rod 31 moves to the head end direction of the main substrate 11 to the maximum limit of the reed 32, the top ring 341 is abutted against the fixing ring 351, thereby realizing the fixation between the two, realizing the angle fixation of the main substrate 11 and the side wing plates 21, when the fixing rod 31 moves to the tail end direction of the main substrate 11 to the maximum limit of the reed 32 in the first state of the fixing rod 31, the top ring 341 is separated from the fixing ring 351, when the number of the side wing plates 21 on the same side of the main base plate 11 is larger than one, the angle between the two adjacent side wing plates 21 is fixed in the same way, the bottom surface of the main base plate 11 is rotatably provided with two rope buckles 6 for installing shoulder straps, and a parent can obliquely carry the device on the shoulder to reduce fatigue and pain of muscles and joints;

The reed 32 is in an annular horn-shaped structure, forward and reverse turning can be performed along the axial direction of the reed 32, the narrow end of the horn-shaped reed 32 is connected with the outer wall of the fixed rod 31 by adopting a silicon rubber material, the connection mode is a technology well known to a person skilled in the art, the connection part of the reed 32 and the fixed rod 31 can be normally turned when the reed 32 turns, when the fixed rod 31 moves from a first state to a second state, the narrow end of the reed 32 changes from pointing to the head end of the main substrate 11 to pointing to the tail end of the main substrate 11, so that the fixed rod 31 is displaced, and the state between the top ring 341 and the fixed ring 351 is changed;

The diameter of the reed 32 is smaller than the inner diameter of the first connecting pipe 12 and larger than the inner diameters of the two limiting rings 33, the distance between the two limiting rings 33 is slightly larger than the thickness of the reed 32, when the direction of the narrow end of the reed 32 is changed, the reed 32 is deformed, the outer edge of the wide end of the reed 32 is extended outwards, when the narrow end of the reed 32 is in a critical state, namely, the narrow end and the wide end of the reed 32 are positioned on the same plane, the outer edge of the wide end of the reed 32 is in a maximum deformation state, and when the narrow end of the reed 32 passes through the critical state, the outer edge diameter of the wide end of the reed 32 is gradually reduced, and the two limiting rings 33 limit the outer edge of the wide end of the reed 32;

the end face of the top ring 341, which points to the fixed ring 351, is provided with a plurality of protrusions 342, the corresponding position of the fixed ring 351 is provided with a plurality of grooves 352, the end face of the top ring 341, which is provided with the protrusions 342, is in a drill-shaped structure, the fixed ring 351 is matched with the protrusions 342, and when the protrusions 342 are mutually clamped with the grooves 352, the top ring 341 and the fixed ring 351 are fixed, so that the fixation of the main substrate 11 and the side wing plates 21 is realized;

The number of the side wing plates 21 is at least two, the number of the fixing devices 3 is matched with the number of the side wing plates 21, at least two side wing plates 21 are distributed on two sides of the main base plate 11 in a mirror image mode, the corresponding fixing devices 3 are distributed on two sides of the main base plate 11 in a central symmetry mode, the number of the side wing plates 21 can be increased according to requirements, the wrapping protection space of the device is increased, and the fixing devices 3 are distributed in a mode that the effect that when the fixing rods 31 on two sides of the main base plate 11 are changed from a first state to a second state, the moving directions of the fixing rods 31 are opposite is achieved;

Also included is an adjustment device 4, the adjustment device 4 comprising: the first driving wheel 41, the first driving wheel 42, the second driving wheel 43, the second driving wheel 44, the driving belt 45, the traction ropes 46 and the wrenches 47, the first driving wheel 42 and the first driving wheel 41 are coaxially arranged and rotatably mounted on the bottom surface of the main substrate 11, the second driving wheel 44 and the second driving wheel 43 are coaxially arranged and rotatably mounted on the bottom surface of the main substrate 11, the driving belt 45 is sleeved on the outer walls of the first driving wheel 42 and the second driving wheel 44, the wrenches 47 are arranged on the outer end surface of the first driving wheel 41, the number of the traction ropes 46 is at least four, the first ends of the at least four traction ropes 46 are respectively arranged on the outer walls of the first driving wheel 42 and the second driving wheel 44, the second ends of the at least four traction ropes 46 are respectively arranged on corresponding fixing devices 3, the circle center connecting lines of the first driving wheel 41 and the second driving wheel 43 are along the extending direction of the main substrate 11, when the wrenches 47 drive the first driving wheel 41 to rotate, the first driving wheel 42, the first driving wheel 44 and the driving belt 45 are matched with the second driving wheel 43, the second driving wheel 43 are synchronously rotated, the first driving wheel 43 is used for realizing synchronous rotation, the first side-side rotation, the first driving wheel 41 and the second driving wheel 43 can realize the elastic deformation of the main substrate by the elastic deformation of the same side of the traction ropes 46, and the elastic deformation of the main substrate is realized by the elastic deformation state of the elastic deformation of the main substrate, and the elastic deformation of the main substrate is realized by the elastic deformation state of the elastic deformation device, and the elastic deformation of the elastic deformation device is realized by the flexible state and the flexible state;

Two traction ropes 46 of the at least four traction ropes 46 are arranged on the outer wall of the first wire wheel 41, the other two traction ropes 46 are arranged on the outer wall of the second wire wheel 43, the two traction ropes 46 on the first wire wheel 41 are arranged on two sides of the outer wall of the first wire wheel 41 in a mirror image mode, the two traction ropes 46 on the second wire wheel 43 are arranged on two sides of the outer wall of the second wire wheel 43 in a mirror image mode, the traction ropes 46 on the first wire wheel 41 and the traction ropes 46 on the second wire wheel 43 are distributed in a mirror image mode, as the fixing devices 3 on two sides of the main substrate 11 are distributed in a center symmetry mode, when the first wire wheel 41 is driven to rotate in the forward direction, the traction ropes 46 connected with the first wire wheel 41 are wound on the outer wall of the first wire wheel 41, the traction ropes 46 connected with the first wire wheel 41 are released, so that the fixing rods 31 on the side are controlled to move from a second state to the first state, the traction rods 31 are controlled to move from the second state to the first state, the two traction ropes 46 connected with the second wire wheel 43 are wound on the second wire wheel 43, and the two opposite sides of the first wire wheel 43 are simultaneously wound on the first wire wheel 43, and the two opposite sides of the first wire wheel 43 are controlled to rotate, the positions of the first wire frame are simultaneously, and the positions of the two traction ropes are controlled to be wound on the opposite sides of the first wire wheel 43 are changed, and the first wire frame 43 are wound on the opposite sides, and the opposite sides of the first wire rods are wound on the first wire wheels, and the second wire wheels are wound on the opposite sides, and the traction ropes are positioned on the opposite sides, and the traction ropes;

The second connecting pipe 221 is provided with two through holes 222, the second end of the hauling rope 46 penetrates through the through holes 222 and is arranged on the outer wall of the fixed rod 31, the top surface of the flank plate 21 is provided with an auxiliary block 48 corresponding to the positions of the two through holes 222, the two through holes 222 meet the displacement distance of the hauling rope 46 when the state of the fixed rod 31 is changed, when the number of the flank plates 21 on the same side of the main base plate 11 is more than one, the hauling rope 46 penetrates through the auxiliary block 48, the auxiliary block 48 can elastically deform, the included angle between the pulling direction of one end of the hauling rope 46 connected with the fixed rod 31 and the displacement direction of the fixed rod 31 is reduced as much as possible when the hauling rope 46 is pulled to change the state of the fixed rod 31, the waste of force is reduced, when the number of the flank plates 21 on the same side of the main base plate 11 is more than one, the elastic deformation of the auxiliary block 48 is matched with the elastic deformation of the hauling rope 46 is utilized to realize gradual control of the state of the fixed rod 31, when the number of the side wings 21 on the same side of the main substrate 11 is two, the primary side wing plate 21 and the secondary side wing plate 21 are formed, the traction rope 46 connected with the secondary side wing plate 21 and the first wire wheel 41 penetrates through the auxiliary block 48, and similarly, the traction rope 46 connected with the secondary side wing plate 21 and the second wire wheel 43 penetrates through the auxiliary block 48, the first wire wheel 41 is driven to rotate, the traction rope 46 connected with the primary side wing plate 21 and the first wire wheel 41 and the traction rope 46 connected with the secondary side wing plate 21 and the first wire wheel 41 are synchronously wound on the outer wall of the first wire wheel 41, at the moment, the fixed rod 31 between the primary side wing plate 21 and the main substrate 11 is changed into the first state from the second state, the traction rope 46 connected with the secondary side wing plate 21 and the first wire wheel 41 is not driven to move under the deformation of the auxiliary block 48, at this time, the angle between the main base plate 11 and the first-stage flank plate 21 is fixed, when the first reel 41 continues to rotate, the traction rope 46 connected with the first reel 41 by the first-stage flank plate 21 deforms, meanwhile, the fixing rod 31 between the flank plate 21 and the main base plate 11 is still in the first state, at this time, the connecting rope between the second-stage flank plate 21 and the first reel 41 changes the fixing rod 31 between the first-stage flank plate 21 and the second-stage flank plate 21 from the second state to the first state, the fixing of the angle between the second-stage flank plate 21 and the first-stage flank plate 21 is completed, if the third-stage flank plate 21 is added, the principle is consistent, if the flank plate 21 is required to be released from fixing, the first reel 41 can be reversely driven to rotate, a cover plate can be added at the bottom of the main base plate 11, and the false touch of the wrench 47 and the traction rope 46 is reduced when in use;

The auxiliary device 5 includes: the first-stage sleeve 501, the second-stage sleeve 502, the bracket 503, the shaft tube 504, the limiting block 5051, the through slot 5052, the adjusting block 506, the plug handle 5071, the slot 5072, the ear muff 508, the top block 509, the plug rod 510, the plug block 511, the elastic piece 512 and the push block 513, the first-stage sleeve 501 is sleeved at the head end of the main substrate 11, the second-stage sleeve 502 is sleeved on the outer wall of the first-stage sleeve 501, the brackets 503 are arranged at the two ends of the shaft tube 504, the shaft tube 504 is rotationally connected with the brackets 503, the shaft tube 504 is arranged on the top surface of the first-stage sleeve 501 through the brackets 503, the limiting block 5051 is in a regular polygon cavity structure, the limiting block 5051 is coaxially arranged on the shaft tube 504, the inner cavity of the limiting block 5051 is communicated with the inner cavity of the shaft tube 504, a plurality of through slots 5052 are correspondingly arranged on the outer wall plane of the limiting block 5051, the number of the adjusting blocks 506 is two, the two adjusting blocks 506 are arranged at the two ends of the shaft tube 504 in a mirror image, the plug handle 5071 is spliced in the adjusting blocks 506, the side wall of the inserting handle 5071 is provided with a plurality of inserting grooves 5072, the inserting grooves 5072 are distributed along the extending direction of the inserting handle 5071, the earmuffs 508 are arranged at the end parts of the inserting handle 5071, the jacking blocks 509 are corresponding to the through grooves 5052 in number and are arranged in the through grooves 5052 in a sliding manner, the number of the inserting rods 510 is two, the two inserting rods 510 are respectively arranged at the two ends of the inserting tube in a sliding manner, the inserting rods 510 can only slide and can not rotate, the first end parts of the inserting rods 510 penetrate through the adjusting blocks 506, the first end parts of the inserting rods 510 are provided with inserting blocks 511, the inserting blocks 511 are matched with the inserting grooves 5072, the elastic pieces 512 are positioned in the inner cavities of the inserting tubes, the two ends of the elastic pieces 512 are abutted against the second ends of the two inserting rods 510, the middle positions of the elastic pieces 512 are fixedly arranged on the jacking blocks 509, the pushing blocks 513 are arranged on the two-stage sleeve 502, when an infant is laid on the main base plate 11, the angle of the earmuffs 508 can be changed through rotating the shaft tubes 504, the distance between the inserting rods 5071 can be adjusted, when the position is determined, the second sleeve 502 can be sleeved on the first sleeve 501, the push block 513 is abutted against the outer wall of the bottom of the limiting block 5051, so that the rotation angle of the shaft tube 504 is fixed, when the push block 513 is abutted against the bottom plane of the limiting block 5051, the top block 509 is pushed into the limiting block 5051, the elastic piece 512 is deformed, the inserting rods 510 on two sides are pushed to the outer side of the shaft tube 504, the inserting blocks 511 at the end parts of the inserting rods 510 are inserted into the inserting grooves 5072, the positions of the two inserting rods 5071 are fixed, the positions and the angles of the ear covers 508 are fixed, the inserting rods 5071 are made of elastic materials, the ear covers 508 can be tightly covered on the ears of the infants by the aid of the elasticity of the inserting rods 5071, the elastic piece 512 can be an airbag or a rubber block, and the inserting rods 510 on two sides can be pushed out when the top block 509 moves into the limiting block 5051.

Examples:

Firstly, a shoulder strap is connected with a rope fastener 6, a wrapped infant is placed on a main base plate 11, the position of a baffle plate 72 is adjusted according to the height of the infant, then the shoulder strap is carried by the shoulder strap, the shoulder straps are used for gathering up side wing plates 21 at two sides of the main base plate 11 and holding the shoulder strap by both hands, at the moment, the side wing plates 21 are attached to the body of the infant, proper extrusion force is generated, meanwhile, excessive extrusion is controlled, then a spanner 47 is manually driven, so that a first reel 41 rotates, the fixed state of the side wing plates 21 is adjusted step by rotating the first reel 41, the angle of the side wing plates 21 is adjusted along with the fixed parent of the side wing plates 21, the infant achieves a comfortable state, at the moment, the ear cover 508 can be adjusted by both hands while assisting the shoulder strap, and the ear of the infant can be protected when encountering a loud environment;

When detection is needed, the side wing plates 21 can be adjusted to enable the outermost side wing plates 21 to be in a non-fixed state, at the moment, the side wing plates 21 are rotated to enable the side wing plates to be in a state perpendicular to the ground, then the side wing plates are fixed, at the moment, the fixing plates can play a supporting role, the main base plate 11 is matched with the rest side wing plates 21 to form a flat detection platform, detection can be carried out under the condition that a baby is not moved, and operation is convenient;

When the atomization treatment is needed, the angle of the side wing plate 21 is adjusted to a relatively flat position, extrusion to an infant is reduced, the infant can breathe smoothly, then the two keel mechanisms 81 are installed on the side wing plates 21 on two sides of the main base plate 11 by using the plug boards 815 at the bottom ends of the keel mechanisms 81, then the distance between the two keel mechanisms 81 is adjusted according to the body length of the infant, the keel mechanism 81 near the head end of the main base plate 11 is positioned at the top of the infant, the keel mechanism 81 on the other side is positioned near the chest of the infant, the elastic rope 84 on the chest deforms, the elasticity of the elastic rope 84 does not cause hero to the infant breathing, only supports the covering film 85, at the moment, the output quantity of the nozzle 83 is synchronously adjusted after the keel mechanisms 81 are arranged, then the nozzle 83 is connected with an atomization source of the medicine, and the monitoring is kept, at the moment, the atomization cavity is filled with atomized medicine, and the infant only needs to breathe autonomously, compared with the traditional mask type instrument, the discomfort of the infant can be reduced, and the atomization effect is improved.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. A neonatal nebulization treatment apparatus auxiliary device, comprising: the novel elastic membrane comprises two keel mechanisms (81), connecting rods (82), nozzles (83), elastic ropes (84) and a coating film (85), wherein the two keel mechanisms (81) are in an arc-shaped structure and distributed in a mirror image mode, the two nozzles (83) are arranged at the arc tops of the two keel mechanisms (81) in the middle, the number of the connecting rods (82) is at least two, at least two connecting rods (82) are hinged end to form the connecting rod (82) mechanism, two ends of the connecting rod (82) mechanism are respectively connected with the two nozzles (83), the number of the elastic ropes (84) is two, the two elastic ropes (84) are arranged at the bottom ends of the two keel mechanisms (81) in a mirror image mode, the coating film (85) is sleeved on the two keel mechanisms (81), and the bottom edges of the coating film (85) are arranged on the elastic ropes (84);

The keel mechanism (81) comprises: the automatic lifting device comprises two supporting rods (811), teeth (812), sleeve rods (813) and tooth grooves (814), wherein the number of the supporting rods (811) is two, the top ends of the two supporting rods (811) are respectively inserted into two ends of the sleeve rods (813), the teeth (812) are arranged on the outer walls of the supporting rods (811), and the tooth grooves (814) are formed in positions corresponding to the inner walls of the sleeve rods (813);

Further comprises: the device comprises a main substrate (11), a first connecting pipe (12), a second connecting pipe (221), side wing plates (21) and fixing devices (3), wherein the first connecting pipe (12) is arranged on the side part of the main substrate (11), the second connecting pipe (221) is arranged at the end part of the side wing plates (21), the fixing devices (3) are arranged in the first connecting pipe (12) and the second connecting pipe (221) so that a hinging relationship is formed between the main substrate (11) and the side wing plates (21), the bottom ends of keel mechanisms (81) are detachably arranged on the side wing plates (21), the number of the side wing plates (21) is at least two, the number of the fixing devices (3) is matched with the number of the side wing plates (21), at least two side wing plates (21) are distributed on two sides of the main substrate (11) in a mirror image mode, and the corresponding fixing devices (3) are distributed on two sides of the main substrate (11) in a central symmetry mode;

The fixing device (3) comprises: fixed rod (31), reed (32), spacing ring (33), top ring (341) and fixed ring (351), fixed rod (31) slip sets up in first connecting pipe (12) and second connecting pipe (221), and can not rotate relatively between first connecting pipe (12), reed (32) set up in the outer wall of fixed rod (31), reed (32) are annular loudspeaker form structure, can follow the positive and negative upset of reed (32) axis direction, the diameter of reed (32) is less than the internal diameter of first connecting pipe (12), and is greater than the internal diameter of two spacing rings (33), and the interval of two spacing rings (33) is slightly greater than the thickness of reed (32), the quantity of spacing rings (33) is two, two spacing rings (33) coaxial set up in the inner wall of second connecting pipe (221), and two spacing rings (33) are located the both sides of reed (32), fixed ring (351) set up in the top ring (221) of the inner wall of second connecting pipe (32), the diameter of reed (32) is less than the internal diameter of first connecting pipe (12), and is located the top ring (341) of fixed ring (341) is located on the top ring (341) that is located fixed ring (342) one side, a plurality of grooves (352) are formed in the positions corresponding to the fixing rings (351).

2. A neonatal nebulization treatment device aid according to claim 1, characterized by further comprising an adjusting means (4), the adjusting means (4) comprising: the novel traction device comprises a first reel (41), a first driving wheel (42), a second reel (43), a second driving wheel (44), a driving belt (45), traction ropes (46) and wrenches (47), wherein the first driving wheel (42) and the first reel (41) are coaxially arranged and rotatably mounted on the bottom surface of a main substrate (11), the second driving wheel (44) and the second reel (43) are coaxially arranged and rotatably mounted on the bottom surface of the main substrate (11), the driving belt (45) is sleeved on the outer walls of the first driving wheel (42) and the second driving wheel (44), the wrenches (47) are arranged on the outer end surfaces of the first reel (41), the number of the traction ropes (46) is at least four, the first ends of the traction ropes (46) are respectively arranged on the outer walls of the first driving wheel (42) and the second driving wheel (44), and the second ends of the traction ropes (46) are respectively arranged on corresponding fixing devices (3).

3. A neonatal nebulization treatment device aid according to claim 2, characterized in that: at least two traction ropes (46) of the four traction ropes (46) are arranged on the outer wall of the first wire wheel (41), and the other two traction ropes (46) are arranged on the outer wall of the second wire wheel (43).

4. A neonatal nebulization treatment device aid according to claim 2, characterized in that: two through holes (222) are formed in the second connecting pipe (221), the second end of the traction rope (46) penetrates through the through holes (222) and is arranged on the outer wall of the fixing rod (31), and auxiliary blocks (48) are arranged on the top surface of the side wing plate (21) corresponding to the positions of the two through holes (222).