CN116764015A - Neonate peritoneal dialysis solution heating package - Google Patents

Abstract

The invention discloses a heating bag for peritoneal dialysis solution of a newborn, which belongs to the technical field of medical treatment and comprises an outer bag, wherein a heating pipe is embedded in a bottom shell cavity of the outer bag, a driving motor is fixedly arranged on the outer wall of one side of the outer bag, and a storage mechanism is fixedly arranged at one end of an output shaft of the driving motor; according to the invention, through the design, the dialysate bag can shake in real time, and meanwhile, the hot air circulation rate in the outer bag can be improved, and the contact area between the hot air and the dialysate bag is increased, so that the dialysate heating efficiency is improved, and meanwhile, when the dialysate bag is loaded, the upper part of the inner cavity of the object is automatically sealed, the heat reflection efficiency is improved, so that the heating efficiency of the heating bag is further improved, the upper and lower pressing coverage of the dialysate bag is also realized, and the flow rate of the dialysate in the dialysate bag is effectively improved, so that the heating effect and the heating efficiency of the dialysate bag are further improved.

Description

Neonate peritoneal dialysis solution heating package

Technical Field

The invention belongs to the technical field of medical treatment, and particularly relates to a heating bag for neonatal peritoneal dialysis solution.

Background

The peritoneal dialysis of the newborn is a common first-aid treatment method for acute renal failure of the newborn, and the peritoneal dialysis needs to heat the dialysate to about 37 ℃ to prevent hypothermia and the like. The traditional peritoneal dialysis adding mode is water bath heating, but the continuous and effective heating of the dialysate cannot be guaranteed by the heating mode. Because the peritoneal dialysis solution used in the current medical field is in the specification of 2L/bag, the neonate only needs 1 bag of dialysis solution at most after 24 hours of dialysis, if the dialysis solution is heated well before starting, the temperature can be quickly reduced after being taken out of the water bath tank and exposed to the outside for 24 hours, the body temperature maintenance and circulation stability of the neonate are not favored, and if the infusion set pipeline connected with the dialysis tube is heated by the heating rod, the heating effect is limited, so that the neonate peritoneal dialysis solution heating bag needs to be used.

Chinese patent (CN 109646745 a) discloses a dialysate heating device for CRRT, which comprises a heating device and a vibrating device, wherein the heating device comprises a heating plate, a heating pipe and two heating bases with rectangular shapes, the two heating bases are arranged in parallel, the four sides of the two heating bases are connected through foldable connecting cloth, so as to form a heating cavity, one end of the connecting cloth, which is located in the length direction of the heating base, is provided with a linear opening for placing a dialysis bag, the opposite surfaces of the two heating bases are provided with the heating plate, and the heating plate is internally provided with the heating pipe; the vibration device comprises a vibration base, a vibrator is arranged on the vibration base, the vibrator penetrates through the heating base and the heating plate and then stretches into the heating cavity to be in contact with the surface of a dialysis bag to be heated, the heating rate control of the dialysis liquid can only be realized through temperature control although the heating device of the present dialysis liquid can also be used for completing the heating treatment of the dialysis liquid, but the dialysis liquid is generally arranged in the dialysis bag, the temperature limit is generally reserved in the heating process, the dialysis bag is easily damaged due to the fact that the temperature limit is exceeded, the whole heating efficiency is low, the using effect is limited, and in order to solve the problems, a neonatal peritoneal dialysis liquid heating bag is needed to be needed to solve.

Disclosure of Invention

The invention aims at: in order to solve the problems that the heating treatment of the dialysate can be finished by the conventional dialysate heating device, but the heating rate control of the dialysate can only be realized by temperature control, the dialysate is generally arranged in a dialysis bag, and the temperature limit is generally exceeded in the heating process, so that the dialysis bag is easy to damage, the whole heating efficiency is low and the using effect is limited.

In order to achieve the above purpose, the present invention adopts the following technical scheme: the utility model provides a neonate peritoneal dialysis solution heating package, includes the outsourcing, the top cap is installed through the hinge to the top of outsourcing, the bottom shell intracavity of outsourcing is inlayed and is installed the heating pipe, fixed mounting has driving motor on the outer wall of one side of outsourcing, driving motor's output shaft one end fixed mounting has puts thing mechanism, and thing mechanism is used for the placing of dislysate package, the inside rotation of outsourcing installs the vortex subassembly, and the vortex subassembly is used for the vortex of outsourcing hot air, fixed mounting has accurate accuse volume liquid pump on the opposite side outer wall of outsourcing, the one end of accurate accuse volume liquid pump is provided with the feed liquor pipe, and feed liquor pipe one end fixed mounting has the drawing liquid hose.

As a further description of the above technical solution:

the storage mechanism comprises a mounting shaft, one end of the mounting shaft is fixedly provided with a storage shell, the outside of the mounting shaft is fixedly provided with a driving belt pulley, the inside of the storage shell is provided with a storage inner cavity, and the inside of the storage inner cavity is provided with a bearing assembly.

As a further description of the above technical solution:

the bearing assembly comprises a bearing plate, side sliding blocks are fixedly arranged on the outer walls of two sides of the bearing plate, one end of each side sliding block is in sliding connection with a sliding groove arranged on the inner surface of the inner cavity of the article, and a pressure-bearing spring is fixedly arranged on the bottom surface of each side sliding block.

As a further description of the above technical solution:

the bottom of pressure-bearing spring is fixedly connected with the inner wall of the bottom surface of the chute, a limiting clamping shaft is longitudinally and fixedly arranged on the top surface of the side sliding block, and a first roll shaft is rotatably arranged in a top groove arranged on the top surface of the bearing plate through a rotating shaft.

Further, through being provided with carrier assembly and press cover subassembly in putting thing mechanism, after putting thing mechanism with the dialysate package, the pressure that the carrier plate bore can promote, along with the promotion of the volume of placing of dialysate package on the carrier plate, carrier pressure on the carrier plate also can progressively promote, after the bearing capacity that pressure was greater than the pressure-bearing spring, the carrier plate can progressively descend, synchronous drive spacing card axle descends, make the one end of spacing card axle break away from press cover subassembly's bottom card hole, side top spring pushes out the press cover shell this moment, two press cover shells pop out simultaneously, can seal the top of putting the thing inner chamber, make the heat that gets into putting the thing inner chamber can reflect through press cover subassembly, make the heat refocus in the inside of putting the thing inner chamber, thereby further promote the heating efficiency to the dialysate package, through this design, can realize putting the upper portion self-sealing of thing inner chamber, improve heat reflection efficiency, thereby further promote the heating efficiency of heating package.

As a further description of the above technical solution:

the utility model discloses a storage device, including storage shell, side mounting groove, cover the subassembly and cover the shell including pressing, be provided with end card hole and installation inside groove on the bottom surface of cover the shell, the one end card of spacing card axle inlays the inside at end card hole, fixed mounting has side top spring on one side outer wall of cover the shell, one end and one side inner wall fixed connection of side mounting groove of side top spring.

As a further description of the above technical solution:

the inside fixed mounting of installation inside groove has the spring axle, the one end fixed mounting of spring axle has built-in shell, fixed mounting has the heat reflecting plate on the bottom surface of built-in shell, the inside of built-in shell is installed the second roller through the installation axle rotation, the outside fixed mounting of installation axle has the reel.

As a further description of the above technical solution:

the inside of the built-in shell is longitudinally and fixedly provided with a longitudinal sliding rod, the outside of the longitudinal sliding rod is slidably provided with a rod sleeve, and one end of the rod sleeve is fixedly provided with a pressing plate.

As a further description of the above technical solution:

the outer surface of the pressing plate is provided with a plurality of convex particles, a connecting rope is wound outside the wire wheel, and one end of the connecting rope is fixedly connected with one end of the rod sleeve.

Further, through being provided with second roller and cladding dish in built-in shell, after the cladding shell pops out, the spring axle can push down built-in shell voluntarily, make second roller effectively with the dialysate bag contact, because also be provided with a plurality of first roller on the loading board, when putting thing mechanism and rock, the dialysate bag also can remove between loading board and built-in shell, the dialysate bag can drive the second roller and take place the rotation when removing, the second roller can drive the reel synchronous rotation, thereby the reel can realize the rolling to the connecting rope, the connecting rope can carry out the lifting to the pole cover this moment, thereby make the cladding dish lift, when the second roller upset, the cladding dish then can fall automatically, realize the upper and lower cladding to the dialysate bag, thereby can effectively promote the flow rate of dialysate in the dialysate bag, thereby further promote the heating effect and the efficiency of dialysate bag.

As a further description of the above technical solution:

the turbulence assembly comprises a blade shaft, and a driven belt pulley and turbulence blades are fixedly arranged outside the blade shaft.

As a further description of the above technical solution:

the driven belt pulley is connected with the driving belt pulley through a transmission belt, and a plurality of ventilation holes are formed in the outer surface of the object placing shell.

In summary, due to the adoption of the technical scheme, the beneficial effects of the invention are as follows:

1. according to the invention, the top cover is opened when the dialysate bag is heated, the dialysate bag is packaged into the object placing mechanism, the top cover is closed, the electric heating tube is opened, the temperature in the outer bag is quickly increased, the driving motor is started, the driving motor is controlled to rotate positively and negatively, the object placing mechanism is controlled to swing left and right, the dialysate bag placed in the object placing mechanism is effectively swayed, meanwhile, the object placing mechanism is swayed, the driving belt pulley can rotate positively and negatively, the driving belt pulley can drive the driven belt pulley of the vortex assembly to synchronously rotate positively and negatively through the driving belt, so that the blade shaft and the vortex blade synchronously rotate, the vortex blade rapidly disturbed the hot air in the outer bag, the hot air can rapidly enter the object placing mechanism, the dialysate bag swaying in real time is rapidly heated, the hot air circulation rate in the outer bag can be simultaneously improved, the contact area of the hot air and the dialysate bag is improved, and the heating efficiency of the dialysate is improved.

2. According to the invention, the bearing assembly and the press cover assembly are arranged in the storage mechanism, after the dialysate package is put into the storage mechanism, the bearing pressure of the bearing plate can be increased, along with the increase of the placement amount of the dialysate package on the bearing plate, the bearing pressure on the bearing plate can also be increased gradually, after the bearing pressure is larger than the bearing force of the bearing spring, the bearing plate can be decreased gradually, the limit clamping shaft is synchronously driven to descend, one end of the limit clamping shaft is separated from the bottom clamping hole of the press cover assembly, at the moment, the side top spring pushes out the press cover shells, and the two press cover shells are simultaneously ejected out, so that the upper part of the storage inner cavity can be sealed, the heat entering the storage inner cavity can be reflected through the heat reflecting plate of the press cover assembly, the heat is concentrated in the inner cavity of the storage inner cavity, so that the heating efficiency of the dialysate package is further improved, and through the design, the upper part of the storage inner cavity can be automatically sealed when the dialysate package is loaded, the heat reflecting efficiency is improved, and the heating efficiency of the package is further improved.

3. According to the invention, the second roll shaft and the pressing disc are arranged in the built-in shell, after the pressing shell pops up, the spring shaft can automatically push down the built-in shell, so that the second roll shaft is effectively contacted with the dialysate bag, and as the bearing plate is also provided with the plurality of first roll shafts, when the object placing mechanism shakes, the dialysate bag can move between the bearing plate and the built-in shell, the second roll shaft can be driven to rotate when the dialysate bag moves, the second roll shaft can drive the wire wheel to synchronously rotate, so that the wire wheel can realize winding of the connecting rope, the connecting rope can lift the rod sleeve at the moment, and therefore, the pressing disc can automatically fall down to realize upward and downward pressing of the dialysate bag, and therefore, the flow rate of dialysate in the dialysate bag can be effectively improved, and the heating effect and efficiency of the dialysate bag are further improved.

Drawings

Fig. 1 is a schematic perspective view of a heating pack for peritoneal dialysis solution of a newborn.

Fig. 2 is an exploded perspective view of a neonatal peritoneal dialysis solution heating pack.

Fig. 3 is an enlarged exploded perspective view of the mechanism of the neonatal peritoneal dialysis solution heating pack.

Fig. 4 is an enlarged exploded perspective view of the carrier assembly and the press cover assembly in the neonatal peritoneal dialysis solution heating pack.

Fig. 5 is an enlarged perspective view of the turbulence assembly in the neonatal peritoneal dialysis solution heating pack.

Fig. 6 is an enlarged exploded perspective view of the pressure cover assembly in the neonatal peritoneal dialysis solution heating pack.

Fig. 7 is an enlarged perspective view of the second roller and the platen in the neonatal peritoneal dialysis solution heating pack.

Fig. 8 is an enlarged schematic view of the structure at a in the neonatal peritoneal dialysis solution heating pack.

Legend description:

1. a top cover; 2. outsourcing; 3. a driving motor; 4. a storage mechanism; 41. a mounting shaft; 42. a drive pulley; 43. a storage shell; 44. an inner cavity for placing articles; 45. a side mounting groove; 46. a carrier assembly; 461. limiting the clamping shaft; 462. a side slider; 463. a pressure-bearing spring; 464. a carrying plate; 465. a first roller shaft; 47. a press-coating assembly; 471. a built-in shell; 472. a bottom clamping hole; 473. installing an inner groove; 474. a side top spring; 475. covering the shell by pressing; 476. a heat reflection plate; 477. a second roller shaft; 478. a pressing plate; 479. a wire wheel; 4710. a mounting shaft; 4711. a connecting rope; 4712. protruding particles; 4713. a longitudinal slide bar; 4714. a rod sleeve; 4715. a spring shaft; 48. a clamping shaft; 49. an outer convex shaft; 5. a spoiler assembly; 51. turbulence leaves; 52. a driven pulley; 53. a blade shaft; 6. heating the inner cavity; 7. the accurate control of the liquid pump; 8. and a liquid suction hose.

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. 1-8, the present invention provides a technical solution: the utility model provides a neonate peritoneal dialysis liquid heating package, includes outsourcing 2, top cap 1 is installed through the hinge at the top of outsourcing 2, the bottom shell intracavity of outsourcing 2 is inlayed and is installed the heating pipe, fixed mounting has driving motor 3 on the outer wall of one side of outsourcing 2, driving motor 3's output shaft one end fixed mounting has puts thing mechanism 4, puts thing mechanism 4 and is used for the placing of dialysate package, the inside rotation of outsourcing 2 installs vortex subassembly 5, and vortex subassembly 5 is used for the vortex of the hot air in outsourcing 2, fixed mounting has accurate accuse volume pump 7 on the opposite side outer wall of outsourcing 2, the one end of accurate accuse volume pump 7 is provided with the feed liquor pipe, and feed liquor pipe one end fixed mounting has drawing liquid hose 8.

The object placing mechanism 4 comprises an installation shaft 41, an object placing shell 43 is fixedly installed at one end of the installation shaft 41, a driving belt pulley 42 is fixedly installed outside the installation shaft 41, an object placing inner cavity 44 is formed in the object placing shell 43, a bearing component 46 is arranged in the object placing inner cavity 44, the bearing component 46 comprises a bearing plate 464, side sliding blocks 462 are fixedly installed on two outer walls of the bearing plate 464, one end of the side sliding blocks 462 is in sliding connection with a sliding groove formed in the inner surface of the object placing inner cavity 44, a pressure-bearing spring 463 is fixedly installed on the bottom surface of the side sliding blocks 462, a limiting clamping shaft 461 is fixedly installed on the top surface of the side sliding blocks 462, a side mounting groove 45 is formed in the inner side shell cavity of the bearing plate 464, a pressing component 47 is arranged in the side mounting groove 45 and comprises a pressing shell 475, a pressing hole is formed in the pressing shell 475, and one side of the pressing shell is fixedly connected with one side of the pressing shell 475, and one side of the pressing shell is fixedly installed on the pressing shell 475.

The specific implementation mode is as follows: after the dialysate package is put into the storage mechanism 4, the pressure borne by the bearing plate 464 is raised, along with the raising of the placement amount of the dialysate package on the bearing plate 464, the bearing pressure on the bearing plate 464 is also raised gradually, when the pressure is greater than the bearing force of the pressure-bearing spring 463, the bearing plate 464 is lowered gradually, and the limit clamping shaft 461 is synchronously driven to descend, so that one end of the limit clamping shaft 461 is separated from the bottom clamping hole 472 of the pressing component 47, at this time, the side top spring 474 pushes out the pressing shell 475, and the two pressing shells 475 are simultaneously ejected out, so that the upper part of the storage cavity 44 can be closed, the heat entering the storage cavity 44 can be reflected by the heat reflecting plate 476 of the pressing component 47, and the heat is concentrated in the interior of the storage cavity 44, thereby further improving the heating efficiency of the dialysate package.

Through this design, can realize putting the upper portion self-closing of thing inner chamber 44 when loading the dialysate package, improve heat reflection efficiency to further promote heating package heating efficiency.

The inside of installation inside groove 473 is fixed mounting has spring axle 4715, the one end fixed mounting of spring axle 4715 has built-in shell 471, fixed mounting has hot reflecting plate 476 on the bottom surface of built-in shell 471, the inside of built-in shell 471 is installed through the rotation of installation axle 4710 and is installed second roller 477, the outside fixed mounting of installation axle 4710 has reel 479, the inside vertical fixed mounting of built-in shell 471 has vertical slide bar 4713, the outside slidable mounting of vertical slide bar 4713 has pole cover 4714, the one end fixed mounting of pole cover 4714 has the cover plate 478, be provided with a plurality of boss 4712 on the surface of cover plate 478, the outside winding of reel 479 has connecting rope 4711, connecting rope 4711's one end and the one end fixed connection of pole cover 4714.

The specific implementation mode is as follows: after the pressing cover shell 475 pops up, the spring shaft 4715 can automatically push down the built-in shell 471, so that the second roller shaft 477 is effectively contacted with the dialysate bag, and as a plurality of first roller shafts 465 are also arranged on the bearing plate 464, when the object placing mechanism 4 shakes, the dialysate bag can also move between the bearing plate 464 and the built-in shell 471, the second roller shaft 477 can be driven to rotate when the dialysate bag moves, the second roller shaft 477 can drive the wire wheel 479 to synchronously rotate, the wire wheel 479 can realize winding of the connecting rope 4711, the connecting rope 4711 can lift the rod sleeve 4714 at the moment, so that the pressing cover plate 478 can automatically fall when the second roller shaft 477 turns over, the upper and lower pressing cover of the dialysate bag is realized, and therefore the flow rate of the dialysate in the dialysate bag can be effectively improved, and the heating effect and the efficiency of the dialysate bag are further improved.

The turbulence assembly 5 comprises a blade shaft 53, a driven belt pulley 52 and a turbulence blade 51 are fixedly arranged outside the blade shaft 53, the driven belt pulley 52 is connected with the driving belt pulley 42 through a transmission belt, and a plurality of ventilation holes are formed in the outer surface of the object placing shell 43.

The specific implementation mode is as follows: when heating the dialysate package, open top cap 1, pack the dialysate into put thing mechanism 4, close top cap 1, open the electrothermal tube, make the temperature in the outsourcing 2 promote fast, open driving motor 3, control driving motor 3 corotation, thereby control put thing mechanism 4 and carry out the side-to-side swing, make the dialysate package of putting that places in the thing mechanism 4 effectively rock, simultaneously, put thing mechanism 4 and rock, drive pulley 42 also can take place corotation, the driven pulley 52 of driving pulley 42 accessible driving vortex subassembly 5 is synchronous corotation, thereby make blade axle 53 and vortex leaf 51 synchronous rotation, vortex leaf 51 carries out quick vortex to the hot air in the outsourcing 2, hot air can get into fast put in the thing mechanism 4, carry out quick heating to the dialysate package that shakes in real time, when using equipment, make the drawing liquid hose 8 be connected with the dialysis bag, it continuously keeps certain temperature, when using, can be through accurate accuse liquid level that the accurate control pump 7 draws, reduce the frequent change of dialysis liquid, and the low body temperature of neonate and infection take place in this equipment can be controlled continuously, and the temperature is convenient for this temperature monitoring process takes place in the place.

Through this design, can make the dislysate package rock in real time, can promote the hot air circulation rate in the outsourcing simultaneously, improve the area of contact of hot air and dislysate package to promote dislysate heating efficiency.

Working principle: when the dialysate pack is heated, the top cover 1 is opened, the dialysate pack is arranged in the object placing mechanism 4, the top cover 1 is closed, the electric heating tube is opened, the temperature in the outer cover 2 is quickly increased, the driving motor 3 is started, the driving motor 3 is controlled to positively and negatively rotate, the object placing mechanism 4 is controlled to swing left and right, the dialysate pack placed in the object placing mechanism 4 is effectively rocked, meanwhile, when the object placing mechanism 4 is rocked, the driving belt pulley 42 can positively and negatively rotate, the driving belt pulley 42 can drive the driven belt pulley 52 of the vortex assembly 5 through the driving belt to synchronously positively and negatively rotate, so that the blade shaft 53 and the vortex blade 51 synchronously rotate, the vortex blade 51 rapidly disturbed the hot air in the outer cover 2, the hot air can rapidly enter the object placing mechanism 4, and the dialysate pack which is rocked in real time can be rapidly heated; when the dialysate pack is heated, the top cover 1 is opened, the dialysate pack is arranged in the object placing mechanism 4, the top cover 1 is closed, the electric heating tube is opened, the temperature in the outer cover 2 is quickly increased, the driving motor 3 is started, the driving motor 3 is controlled to positively and negatively rotate, the object placing mechanism 4 is controlled to swing left and right, the dialysate pack placed in the object placing mechanism 4 is effectively rocked, meanwhile, when the object placing mechanism 4 is rocked, the driving belt pulley 42 can positively and negatively rotate, the driving belt pulley 42 can drive the driven belt pulley 52 of the vortex assembly 5 through the driving belt to synchronously positively and negatively rotate, so that the blade shaft 53 and the vortex blade 51 synchronously rotate, the vortex blade 51 rapidly disturbed the hot air in the outer cover 2, the hot air can rapidly enter the object placing mechanism 4, and the dialysate pack which is rocked in real time can be rapidly heated; after the dialysate is packed into the storage mechanism 4, the pressure borne by the bearing plate 464 is increased, along with the increase of the placing amount of the dialysate pack on the bearing plate 464, the bearing pressure on the bearing plate 464 is also gradually increased, after the pressure is greater than the bearing force of the pressure-bearing spring 463, the bearing plate 464 is gradually lowered, the limit clamping shaft 461 is synchronously driven to descend, one end of the limit clamping shaft 461 is separated from the bottom clamping hole 472 of the pressing component 47, at the moment, the side top spring 474 pushes out the pressing shell 475, the two pressing shells 475 are simultaneously ejected, the upper part of the storage cavity 44 can be sealed, the heat entering the storage cavity 44 can be reflected through the heat reflecting plate 476 of the pressing component 47, the heat is concentrated in the inside of the storage cavity 44, thereby further improving the heating efficiency of the dialysate pack, when the device is used, the liquid pumping hose 8 is connected with the dialysate bag, the dialysate bag is continuously kept at a certain temperature for 24 hours, the pumped dialysate can be accurately controlled through the accurate control liquid pump 7, the temperature of the newborn is reduced, the temperature of the newborn can be continuously monitored, the temperature is prevented from being frequently monitored, and the temperature is continuously monitored.

The present invention is not limited to the above-mentioned embodiments, and any person skilled in the art, based on the technical solution of the present invention and the inventive concept thereof, can be replaced or changed within the scope of the present invention.

Claims (10)

1. Neonate's peritoneal dialysis liquid adds hot pack, including outsourcing (2), top cap (1) are installed through the hinge at the top of outsourcing (2), the bottom shell intracavity of outsourcing (2) is inlayed and is installed heating pipe, its characterized in that: a driving motor (3) is fixedly arranged on the outer wall of one side of the outer bag (2), a storage mechanism (4) is fixedly arranged at one end of an output shaft of the driving motor (3), the storage mechanism (4) is used for placing a dialysis liquid bag, a turbulence component (5) is rotatably arranged in the outer bag (2), the vortex subassembly (5) are used for the vortex of hot air in outsourcing (2), fixed mounting has accurate accuse volume pump (7) on the opposite side outer wall of outsourcing (2), the one end of accurate accuse volume pump (7) is provided with the feed liquor pipe, and feed liquor pipe one end fixed mounting has drawing liquid hose (8).

2. The neonatal peritoneal dialysis solution heating pack according to claim 1, wherein the placement mechanism (4) comprises a mounting shaft (41), one end of the mounting shaft (41) is fixedly provided with a placement shell (43), the outer portion of the mounting shaft (41) is fixedly provided with a driving belt pulley (42), the inner portion of the placement shell (43) is provided with a placement inner cavity (44), and the inner portion of the placement inner cavity (44) is provided with a bearing assembly (46).

3. The neonatal peritoneal dialysis solution heating pack as claimed in claim 2, wherein the carrying assembly (46) comprises a carrying plate (464), side sliding blocks (462) are fixedly mounted on outer walls of two sides of the carrying plate (464), one end of each side sliding block (462) is slidably connected with a sliding groove formed in the inner surface of the storage cavity (44), and a pressure-bearing spring (463) is fixedly mounted on the bottom surface of each side sliding block (462).

4. The neonatal peritoneal dialysis solution heating pack according to claim 3, wherein the bottom end of the pressure-bearing spring (463) is fixedly connected with the inner wall of the bottom surface of the chute, a limiting clamping shaft (461) is longitudinally and fixedly arranged on the top surface of the side sliding block (462), and a first roll shaft (465) is rotatably arranged in a top groove arranged on the top surface of the bearing plate (464) through a rotating shaft.

5. The neonatal peritoneal dialysis solution heating pack according to claim 4, wherein side mounting grooves (45) are formed in two side shell cavities of the storage shell (43), a press cover assembly (47) is arranged in the side mounting grooves (45), the press cover assembly (47) comprises a press cover shell (475), a bottom clamping hole (472) and an installation inner groove (473) are formed in the bottom surface of the press cover shell (475), one end of the limiting clamping shaft (461) is clamped in the bottom clamping hole (472), a side top spring (474) is fixedly mounted on one side outer wall of the press cover shell (475), and one end of the side top spring (474) is fixedly connected with one side inner wall of the side mounting groove (45).

6. The neonatal peritoneal dialysis solution heating pack as claimed in claim 5, wherein a spring shaft (4715) is fixedly installed inside the installation inner groove (473), a built-in case (471) is fixedly installed at one end of the spring shaft (4715), a heat reflecting plate (476) is fixedly installed on the bottom surface of the built-in case (471), a second roller shaft (477) is rotatably installed inside the built-in case (471) through an installation shaft (4710), and a wire wheel (479) is fixedly installed outside the installation shaft (4710).

7. The neonatal peritoneal dialysis solution heating pack as claimed in claim 6, wherein a longitudinal slide bar (4713) is fixedly installed inside the built-in case (471), a bar sleeve (4714) is slidably installed outside the longitudinal slide bar (4713), and a pressing plate (478) is fixedly installed at one end of the bar sleeve (4714).

8. The neonatal peritoneal dialysis solution heating pack as claimed in claim 7, wherein a plurality of protruding grains (4712) are arranged on the outer surface of the press cover disc (478), a connecting rope (4711) is wound on the outer portion of the wire wheel (479), and one end of the connecting rope (4711) is fixedly connected with one end of the rod sleeve (4714).

9. The neonatal peritoneal dialysis solution heating pack of claim 8, wherein the turbulence assembly (5) comprises a blade shaft (53), and wherein a driven pulley (52) and turbulence blades (51) are fixedly mounted to the exterior of the blade shaft (53).

10. The neonatal peritoneal dialysis solution heating pack as claimed in claim 9, wherein the driven pulley (52) is connected with the driving pulley (42) through a transmission belt, and a plurality of ventilation holes are formed in the outer surface of the storage shell (43).