Newborn rescue table
Technical Field
The invention relates to the field of medical treatment, in particular to a newborn rescue table.
Background
The newborn emergency treatment table is a common medical device, but the function of the common newborn emergency treatment table is single.
Disclosure of Invention
The invention aims to provide a newborn rescue table, which can blow air into a baby body through a breathing assembly to complete the breathing process in the newborn rescue; a cardiac resuscitation process in rescuing a neonate may be accomplished by a cardiopulmonary resuscitation assembly; the position of use in rescuing the newborn can be adjusted.
The purpose of the invention is realized by the following technical scheme:
the utility model provides a neonate salvages platform, includes bottom plate assembly, breathes the assembly, cardiopulmonary resuscitation assembly, its characterized in that: the respiratory assembly is connected with the soleplate assembly, and the cardio-pulmonary resuscitation assembly is connected with the soleplate assembly.
As a further optimization of the technical scheme, the invention discloses a newborn rescue table, which comprises a bottom plate body, a first support, a first rectangular sliding rod, an input motor, an input belt wheel, a first connecting belt and a second support, the driving device comprises a first driving belt wheel, a first driving rotating shaft, a driving belt, a second driving rotating shaft, a second rectangular sliding rod and a third support, wherein the first support is connected with the bottom plate body, the first rectangular sliding rod is connected with the bottom plate body, an input motor is connected with the bottom plate body, the input belt wheel is connected with the input motor, the first connecting belt is connected with the input belt wheel, the second support is connected with the bottom plate body, the third support is connected with the bottom plate body, the first driving rotating shaft is connected with the second support, the first driving belt wheel is connected with the first driving rotating shaft, the first driving belt wheel is connected with the driving belt, the driving belt is connected with the second driving rotating shaft, and the second driving.
According to further optimization of the technical scheme, the invention provides a newborn rescue table, wherein a breathing assembly comprises an outer sleeve, a communicating pipe, a breathing mask, an upper end limiting sleeve, a through hole I, a transmission disc, an inner end air bag, a tangent plane arc-shaped rod, an outer end sleeve, a ventilating pipe, an inner end through hole, a clamping rod sliding rod, an inner end push spring, a compression rod, a compression spring, a lower end plate, a lower end push sleeve, an inner end push spring A, a one-way vent valve sleeve, a vent hole, an inner end sliding ball, an inner end cylindrical sliding rod, an inner end cylindrical sleeve spring, an arc-shaped vent hole, an inner cavity, a side wall rectangular through hole, an annular driving rod, an inner wall sliding groove, an inner end clamp and an inner end push clamp spring, the communicating pipe is connected with the outer sleeve, the breathing mask is connected with the communicating pipe, the inner end clip is connected with an inner end clip push spring, the through hole I is connected with the outer sleeve, the transmission disc is connected with the clip rod, the clip rod is connected with a clip rod slide rod, the clip rod slide rod is connected with an inner end push spring, the transmission disc is connected with a tangent plane arc rod, the tangent plane arc rod is connected with an outer end sleeve, the outer end sleeve is connected with the tangent plane arc rod, the outer end sleeve is connected with the outer sleeve, the compression rod is connected with a lower end plate, the lower end plate is connected with an outer end sleeve, the compression spring is connected with the compression rod, the lower end push sleeve is connected with the compression rod, the inner end push spring A is connected with a lower end push sleeve, the clip rod is connected with an inner wall chute, the inner end air bag is connected with the outer sleeve, the inner end through hole is connected with an inner end air bag, the inner end cylindrical slide rod is connected with the one-way vent valve sleeve, the inner end sliding ball is connected with the inner end cylindrical slide rod, the inner end cylindrical sleeve spring is connected with the inner end cylindrical slide rod, the inner cavity is connected with the one-way vent valve sleeve, the side wall rectangular through hole is connected with the one-way vent valve sleeve, and the outer sleeve is connected with the first support.
As a further optimization of the technical scheme, the invention provides a neonatal rescue platform, which comprises a pressing outer frame, a pressing driving plate, a side wall rack, a first adjusting gear, a matching outer frame, a second adjusting gear, an outer sleeve sliding pipe, a driving rotating rod, an inner end sliding rod, a hinged rotor, a middle end sliding column, a middle end push spring, an upper end rotor, a side wall clamping rod, a clamping rod push spring, a clamping platform and a door-shaped plate, wherein the pressing driving plate is connected with the pressing outer frame, the side wall rack is connected with the pressing outer frame, the first adjusting gear is connected with the side wall rack, the first adjusting gear is connected with the matching outer frame, the second adjusting gear is connected with the matching outer frame, the side wall rack is connected with the matching outer frame, the second adjusting gear is connected with the first rectangular sliding rod and the second rectangular sliding rod, the hinged rotor is connected with the pressing driving plate, the hinged rotor is connected with, the upper end rotor is connected with the outer sleeve sliding pipe, the door type plate is connected with the outer sleeve sliding pipe, the lateral wall clamping rod is connected with the door type plate, the clamping rod push spring is connected with the lateral wall clamping rod, the driving rotating rod is connected with the upper end rotor, the driving rotating rod is connected with a driving rotating shaft I and a driving rotating shaft II, the lateral wall clamping rod is connected with the clamping table, and the clamping table is connected with an inner sliding rod.
As a further optimization of the technical scheme, the neonatal rescue table is characterized in that the annular driving rod is connected with a matched motor A.
The neonate rescue table has the beneficial effects that:
according to the neonatal rescue table, when the use position of a cardiopulmonary resuscitation assembly is adjusted according to actual conditions, a pressing frame is pulled manually, a side wall rack is driven by the pressing frame to move between a first adjusting gear and a matched frame, so that the transverse use position of the cardiopulmonary resuscitation assembly is adjusted, meanwhile, the pressing frame is pulled along a first rectangular sliding rod in a vertical sliding mode, the distance between the cardiopulmonary resuscitation assembly and a bottom plate body is changed through the action of the first rectangular sliding rod and a second adjusting gear, the use height of the cardiopulmonary resuscitation assembly is adjusted, and the use position of the cardiopulmonary resuscitation assembly is adjusted.
Drawings
The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.
FIG. 1 is a first general structural diagram of the present invention;
FIG. 2 is a second overall structural schematic of the present invention;
FIG. 3 is a schematic view of the construction of the base plate assembly of the present invention;
FIG. 4 is a first schematic view of the breathing assembly of the present invention;
FIG. 5 is a schematic structural diagram of a respiratory assembly of the present invention;
FIG. 6 is a third schematic structural view of the breathing assembly of the present invention;
FIG. 7 is a fourth schematic structural view of the respiratory assembly of the present invention;
FIG. 8 is a fifth structural schematic view of the breathing assembly of the present invention;
FIG. 9 is a sixth schematic view of the breathing assembly of the present invention;
FIG. 10 is a seventh structural schematic view of the breathing assembly of the present invention;
FIG. 11 is a schematic view eight of the breathing assembly of the present invention;
FIG. 12 is a ninth structural schematic view of the breathing assembly of the present invention;
FIG. 13 is a tenth schematic structural view of the breathing assembly of the present invention;
FIG. 14 is a eleventh schematic structural view of a respiratory assembly of the present invention;
FIG. 15 is a twelve-dimensional schematic view of the breathing assembly of the present invention;
FIG. 16 is a thirteen schematic structural diagram of a respiratory assembly of the present invention;
FIG. 17 is a fourteenth schematic structural view of a respiratory assembly of the present invention;
FIG. 18 is a first structural schematic view of the cardiopulmonary resuscitation assembly of the present invention;
FIG. 19 is a second schematic structural diagram of the cardiopulmonary resuscitation assembly of the present invention;
FIG. 20 is a third schematic structural view of the cardiopulmonary resuscitation assembly of the present invention;
FIG. 21 is a fourth schematic structural view of the cardiopulmonary resuscitation assembly of the present invention;
FIG. 22 is a fifth schematic view of the cardiopulmonary resuscitation assembly of the present invention;
fig. 23 is a sixth schematic view of the cardiopulmonary resuscitation assembly of the present invention.
In the figure: a bottom plate assembly 1; a bottom plate body 1-1; 1-2 of a bracket I; 1-3 rectangular sliding rods; inputting a motor 1-4; an input pulley 1-5; 1-6 of a connecting belt I; 1-7 of a second bracket; 1-8 of a driving belt wheel; driving the first rotating shaft 1-9; 1-10 of a driving belt; driving a second rotating shaft 1-11; 1-12 rectangular sliding rods; 1-13 parts of a bracket III; a breathing assembly 2; 2-1 of an outer sleeve; a communicating pipe 2-2; 2-3 of a breathing mask; 2-4 of an upper end limiting sleeve; 2-5 of a first through hole; 2-6 of a transmission disc; an inner end airbag 2-7; 2-8 of tangent plane arc-shaped rod; 2-9 parts of an outer end sleeve; 2-10 parts of a breather pipe; inner end through holes 2-11; 2-12 parts of a clamping rod; 2-13 of a clamping rod sliding rod; inner end push spring 2-14; 2-15 parts of a compression rod; 2-16 of a compression spring; 2-17 of a lower end plate; the lower end pushes the sleeve 2-18; the inner end of the push spring A2-19; 2-20 parts of a one-way vent valve sleeve; 2-21 parts of vent holes; inner end sliding balls 2-22; inner end cylindrical slide bars 2-23; 2-24 parts of inner end cylindrical sleeve spring; 2-25 of arc vent holes; 2-26 of inner cavity; side wall rectangular through holes 2-27; an annular drive rod 2-28; inner wall chutes 2-29; 2-30 of inner end clips; the inner end is clamped and pushed by springs 2-31; a cardiopulmonary resuscitation assembly 3; pressing the outer frame 3-1; pressing the driving plate 3-2; side wall racks 3-3; 3-4 parts of a first adjusting gear; matching with the outer frame 3-5; 3-6 parts of a second adjusting gear; 3-7 parts of an outer sleeve sliding pipe; driving the rotating rod 3-8; 3-9 sliding rods at the inner ends; 3-10 of hinged rotor; 3-11 parts of middle sliding column; 3-12 parts of a middle-end push spring; upper end rotors 3-13; side wall clamping rods 3-14; 3-15 parts of clamping rod push spring; 3-16 of a clamping table; door profiles 3-17.
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 welding; fixing by means of thread fixing and the like, and using different fixing modes by combining 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 is formed by a hinge; the pin shaft, the short shaft and other connecting parts are movably connected; 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 23, and a neonatal rescue table includes a base plate assembly 1, a breathing assembly 2, and a cardiopulmonary resuscitation assembly 3, and is characterized in that: the respiratory assembly 2 is connected with the soleplate assembly 1, and the cardiopulmonary resuscitation assembly 3 is connected with the soleplate assembly 1.
The second embodiment is as follows:
the embodiment is described below with reference to fig. 1-23, and the embodiment further describes the first embodiment, where the bottom plate assembly 1 includes a bottom plate body 1-1, a first support 1-2, a first rectangular sliding rod 1-3, an input motor 1-4, an input pulley 1-5, a first connecting belt 1-6, a second support 1-7, a first driving pulley 1-8, a first driving rotating shaft 1-9, a first driving belt 1-10, a second driving rotating shaft 1-11, a second rectangular sliding rod 1-12, and a third support 1-13, the first support 1-2 is connected to the bottom plate body 1-1, the first rectangular sliding rod 1-3 is connected to the bottom plate body 1-1, the input motor 1-4 is connected to the bottom plate body 1-1, and the input pulley 1-5 is connected to the input motor 1-4, the first connecting belt 1-6 is connected with the input belt wheel 1-5, the second support 1-7 is connected with the bottom plate body 1-1, the third support 1-13 is connected with the bottom plate body 1-1, the first driving rotating shaft 1-9 is connected with the second support 1-7, the first driving belt wheel 1-8 is connected with the first driving rotating shaft 1-9, the first driving belt wheel 1-8 is connected with the first driving belt 1-10, the first driving belt 1-10 is connected with the second driving rotating shaft 1-11, and the second driving rotating shaft 1-11 is connected with the third support 1-13.
The third concrete implementation mode:
the first embodiment is further described with reference to fig. 1-23, and the breathing assembly 2 includes an outer sleeve 2-1, a communicating tube 2-2, a breathing mask 2-3, an upper end limiting sleeve 2-4, a through hole one 2-5, a transmission disc 2-6, an inner end airbag 2-7, a tangent arc rod 2-8, an outer end sleeve 2-9, a vent tube 2-10, an inner end through hole 2-11, a clamping rod 2-12, a clamping rod sliding rod 2-13, an inner end push spring 2-14, a compression rod 2-15, a compression spring 2-16, a lower end plate 2-17, a lower end push sleeve 2-18, an inner end push spring A2-19, a one-way vent valve sleeve 2-20, a vent hole 2-21, and an inner end sliding ball 2-22, 2-23 parts of inner-end cylindrical slide bar, 2-24 parts of inner-end cylindrical sleeve spring, 2-25 parts of arc vent hole, 2-26 parts of inner cavity, 2-27 parts of side-wall rectangular through hole, 2-28 parts of annular driving rod, 2-29 parts of inner-wall chute, 2-30 parts of inner-end clip and 2-31 parts of inner-end clip pushing spring, wherein the communicating pipe 2-2 is connected with the outer sleeve 2-1 part, the breathing mask 2-3 is connected with the communicating pipe 2-2 part, the upper-end limiting sleeve 2-4 is connected with the annular driving rod 2-28 part, the annular driving rod 2-28 part is connected with the outer sleeve 2-1 part, the inner-wall chute 2-29 part is connected with the annular driving rod 2-28 part, the inner-end clip 2-30 part, the transmission disc 2-6 is connected with the clamping rod 2-12, the clamping rod 2-12 is connected with the clamping rod sliding rod 2-13, the clamping rod sliding rod 2-13 is connected with the inner end push spring 2-14, the transmission disc 2-6 is connected with the tangent plane arc rod 2-8, the tangent plane arc rod 2-8 is connected with the outer end sleeve 2-9, the outer end sleeve 2-9 is connected with the tangent plane arc rod 2-8, the outer end sleeve 2-9 is connected with the outer sleeve 2-1, the compression rod 2-15 is connected with the lower end plate 2-17, the lower end plate 2-17 is connected with the outer end sleeve 2-9, the compression spring 2-16 is connected with the compression rod 2-15, the lower end push sleeve 2-18 is connected with the compression rod 2-15, the inner end push spring A2-19 is connected with the lower end push sleeve 2-18, the clamping rod 2-12 is connected with the inner wall sliding groove 2-29, the inner end air bag 2-7 is connected with the outer sleeve 2-1, the inner end through hole 2-11 is connected with the inner end air bag 2-7, the inner end through hole 2-11 is connected with the vent pipe 2-10, the vent pipe 2-10 is connected with the through hole one 2-5, the vent pipe 2-10 is connected with the one-way vent valve sleeve 2-20, the vent hole 2-21 is connected with the one-way vent valve sleeve 2-20, the inner end cylindrical sliding rod 2-23 is connected with the one-way vent valve sleeve 2-20, the inner end sliding ball 2-22 is connected with the inner end cylindrical sliding rod 2-23, the inner end cylindrical sleeve spring 2-24 is connected with the inner end cylindrical sliding rod 2-23, the inner cavity 2-, the side wall rectangular through hole 2-27 is connected with a one-way vent valve sleeve 2-20, and the outer sleeve 2-1 is connected with a bracket I1-2;
the matched motor A drives the annular driving rod 2-28 to rotate, the annular driving rod 2-28 rotates to drive the clamping rod 2-12 to rotate through the inner wall sliding groove 2-29, the driving disc 2-6 rotates through the clamping rod 2-12, the tangent plane arc rod 2-8 rotates through the driving disc 2-6, the tangent plane arc rod 2-8 rotates, the compression rod 2-15 slides along the lower end plate 2-17 through the action between the inclined plane on the tangent plane arc rod 2-8 and the compression rod 2-15, the lower end push sleeve 2-18 moves along the vertical direction through the compression rod 2-15 and the inner end push spring A2-19, the inner end air bag 2-7 is compressed through the compression of the inner end push sleeve 2-18 to the inner end air bag 2-7, the gas in the air bag 2-7 at the inner end enters the breathing mask 2-3 through the communicating pipe 2-2, and oxygen is blown into the infant needing rescue through the breathing mask 2-3, so that the breathing process of the infant is completed; when the inner end air bag 2-7 is compressed, the inner end air bag 2-7 is restored under the action of the elastic force of the inner end air bag 2-7, the inner end sliding ball 2-22 moves towards the inner end along the inner end cylindrical sliding rod 2-23 under the action of external atmospheric pressure, so that external air flows into the one-way vent valve sleeve 2-20 through the vent hole 2-21, the side wall rectangular through hole 2-27, the inner cavity 2-26 and the arc vent hole 2-25 and flows into the inner end air bag 2-7 through the one-way vent valve sleeve 2-20, and the air supplement in the inner end air bag 2-7 is completed.
The fourth concrete implementation mode:
the cardiopulmonary resuscitation assembly 3 comprises a pressing outer frame 3-1, a pressing driving plate 3-2, a side wall rack 3-3, a regulating gear I3-4, a matching outer frame 3-5, a regulating gear II 3-6, an outer sleeve sliding tube 3-7, a driving rotating rod 3-8, an inner end sliding rod 3-9, a hinged rotor 3-10, a middle end sliding column 3-11, a middle end push spring 3-12, an upper end rotor 3-13, a side wall clamping rod 3-14, a clamping rod push spring 3-15, a clamping table 3-16 and a door-shaped plate 3-17, wherein the pressing driving plate 3-2 is connected with the pressing outer frame 3-1, the side wall rack 3-3 is connected with the pressing outer frame 3-1, the first adjusting gear 3-4 is connected with the side wall rack 3-3, the first adjusting gear 3-4 is connected with the matching outer frame 3-5, the second adjusting gear 3-6 is connected with the matching outer frame 3-5, the side wall rack 3-3 is connected with the matching outer frame 3-5, the second adjusting gear 3-6 is connected with the first rectangular slide bar 1-3 and the second rectangular slide bar 1-12, the hinged rotor 3-10 is connected with the pressing drive plate 3-2, the hinged rotor 3-10 is connected with the inner end slide bar 3-9, the inner end slide bar 3-9 is connected with the outer sleeve slide pipe 3-7, the upper end rotor 3-13 is connected with the outer sleeve slide pipe 3-7, the door type plate 3-17 is connected with the outer sleeve slide pipe 3-7, the side wall clamping bar 3-14 is connected with the door type plate 3-, the clamping rod push springs 3-15 are connected with the side wall clamping rods 3-14, the driving rotating rods 3-8 are connected with the upper end rotors 3-13, the driving rotating rods 3-8 are connected with the driving rotating shafts 1-9 and the driving rotating shafts two 1-11, the side wall clamping rods 3-14 are connected with the clamping tables 3-16, and the clamping tables 3-16 are connected with the inner end sliding rods 3-9;
when the use position of the cardiopulmonary resuscitation assembly 3 needs to be adjusted according to actual conditions, the pressing frame 3-1 is pulled manually, the side wall rack 3-3 is driven to move between the adjusting gear I3-4 and the matching frame 3-5 through the pressing frame 3-1, then the transverse use position of the cardiopulmonary resuscitation assembly 3 is adjusted, meanwhile, the pressing frame 3-1 is pulled to vertically slide along the rectangular sliding rod I1-3, and through the action of the rectangular sliding rod I1-3 and the adjusting gear II 3-6, the distance between the cardiopulmonary resuscitation assembly 3 and the soleplate body 1-1 is changed, further, the use height of the cardiopulmonary resuscitation assembly 3 is adjusted, and further, the use position of the cardiopulmonary resuscitation assembly 3 is adjusted.
The fifth concrete implementation mode:
the present embodiment is described below with reference to fig. 1 to 23, and the present embodiment further describes the first embodiment, and the annular driving rods 2 to 28 are connected with a matching motor a.
The invention relates to a newborn rescue table, which has the working principle that:
when in use, the matching motor A is started, the matching motor A drives the annular driving rod 2-28 to rotate, the annular driving rod 2-28 rotates to drive the clamping rod 2-12 to rotate through the inner wall sliding groove 2-29, the driving disc 2-6 rotates through the clamping rod 2-12, the tangent plane arc rod 2-8 rotates through the driving disc 2-6, the tangent plane arc rod 2-8 rotates, the compression rod 2-15 slides along the lower end plate 2-17 through the action between the inclined plane on the tangent plane arc rod 2-8 and the compression rod 2-15, the lower end push sleeve 2-18 moves along the vertical direction through the compression rod 2-15 and the inner end push spring A2-19, the inner end air bag 2-7 is compressed through the lower end push sleeve 2-18, the inner end air bag 2-7 is compressed, so that the gas in the inner end air bag 2-7 enters the breathing mask 2-3 through the communicating pipe 2-2, oxygen is blown into the baby needing rescue through the breathing mask 2-3, and the breathing process of the baby is further completed; when the inner end air bag 2-7 is compressed, the inner end air bag 2-7 is restored under the action of the elastic force of the inner end air bag 2-7, the inner end sliding ball 2-22 is moved towards the inner end along the inner end cylindrical sliding rod 2-23 under the action of external atmospheric pressure, so that external air flows into the one-way vent valve sleeve 2-20 through the vent hole 2-21, the side wall rectangular through hole 2-27, the inner cavity 2-26 and the arc vent hole 2-25 and flows into the inner end air bag 2-7 through the one-way vent valve sleeve 2-20, and the air supplement in the inner end air bag 2-7 is completed; when the cardiopulmonary resuscitation needs to be performed on a baby, an input motor 1-4 is started, the input motor 1-4 drives a connecting belt I1-6 to rotate through an input belt wheel 1-5, the connecting belt I1-6 drives a transmission belt wheel I1-8 to rotate, a driving rotating shaft I1-9 is driven to rotate through the transmission belt wheel I1-8, a driving rotating rod I3-8 is driven to rotate through the driving rotating shaft I1-9, an upper end rotor 3-13 is driven to move through the driving rotating rod 3-8, an outer sleeve sliding tube 3-7 is driven to move through the upper end rotor 3-13, an inner end sliding rod 3-9 is driven to move through the outer sleeve sliding tube 3-7, a pressing driving plate 3-2 is driven to slide to the lower side along the inner end sliding rod 3-9 through the inner end sliding rod 3-9, meanwhile, the middle-end push spring 3-12 is compressed, the pressing outer frame 3-1 is pushed by the elasticity of the middle-end push spring 3-12 to move downwards along the rectangular sliding rod 1-3, the lung and the heart of the infant are extruded by the pressing outer frame 3-1, the breathing process of the lung of the infant is completed through air blown in by the breathing mask 2-3, the heart is extruded by the infant to complete the passive circulation process of blood in the body of the infant, an external pacemaker is started if necessary to pace the heart of the infant needing rescue, and the whole cardio-pulmonary resuscitation process is completed; when the use position of the cardiopulmonary resuscitation assembly 3 needs to be adjusted according to actual conditions, the pressing frame 3-1 is pulled manually, the side wall rack 3-3 is driven to move between the adjusting gear I3-4 and the matching frame 3-5 through the pressing frame 3-1, then the transverse use position of the cardiopulmonary resuscitation assembly 3 is adjusted, meanwhile, the pressing frame 3-1 is pulled to vertically slide along the rectangular sliding rod I1-3, and through the action of the rectangular sliding rod I1-3 and the adjusting gear II 3-6, the distance between the cardiopulmonary resuscitation assembly 3 and the soleplate body 1-1 is changed, further, the use height of the cardiopulmonary resuscitation assembly 3 is adjusted, and further, the use position of the cardiopulmonary resuscitation assembly 3 is adjusted.
Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and variations can be made by those skilled in the art within the spirit and scope of the present invention; modifying; and the addition or the replacement also belongs to the protection scope of the invention.