CN115154022A - Self-expansion liquid-control anti-overflow physical cooling device for department of pediatrics - Google Patents

Abstract

The invention discloses a self-expansion liquid-control anti-overflow physical cooling device for pediatrics, which comprises a head-mounted elastic wrapping fixing sleeve, a flexible capillary porous cold compress device and a self-liquid-supply air-cooled cooling device. The invention belongs to the technical field of pediatric physical cooling, in particular to a self-expansion liquid-control anti-overflow type pediatric physical cooling device, which adopts a self-expansion liquid-control mode according to the overflow condition of water flow during the traditional ice bag cold compress cooling, realizes the technical effect of stable cold compress cooling by self-supplying liquid blocking by breaking through the mode that a liquid inlet head punctures an X-shaped liquid outlet to feed liquid and a flow-blocking expansion ball is combined with water expansion liquid blocking, and solves the technical problem of excessive overflow of water flow; according to children's easy-moving when the cold compress cooling leads to the ice bag to drop, needs the head of a family to nurse constantly and the poor condition of cooling effect, adopts the fixed mode of wear-type elasticity parcel, realizes stabilizing the technological effect of the incessant cold compress cooling of laminating formula to children.

Description

Paediatrics physics heat sink of formula is prevented overflowing by self-expanding accuse liquid

Technical Field

The invention belongs to the technical field of pediatric physical cooling, and particularly relates to a self-expansion liquid-control anti-overflow pediatric physical cooling device.

Background

The condition that the infant frequently appears high fever and can not retreat, most parents all take to take the antipyretic medicine and reach the purpose of bringing down a fever cooling, and the infant often takes the antipyretic medicine not only can influence infant self resistance, still can produce the dependence to the medicine, is unfavorable for infant healthy development, and some parents adopt the physics cooling method, and common physical method has: the ice compress bag and the alcohol wipe, although the ice compress bag can achieve the purpose of cooling, the temperature can not be stably cooled, the body health of the sick children is not facilitated, and the ice compress bag is unstable, is easy to fall off and needs to be cared by people at any time; although the purpose of cooling and fever reduction can be well achieved by wiping the whole body with alcohol, alcohol allergy and even alcoholism can be caused by directly contacting the body of a child patient with alcohol, at present, no good physical cooling method is available for the condition that the child patient has fever at a high temperature, and pain is brought to the health of the child patient.

Disclosure of Invention

Aiming at the situations and overcoming the defects of the prior art, the invention provides the self-expansion liquid-control anti-overflow type paediatrics physical cooling device, according to the situation that water flows overflow when the traditional ice bag is cooled by cold compress, a self-expansion liquid-control mode is adopted, and the technical effect of stable cold compress cooling by self-supplying liquid-blocking is realized by breaking through the mode that a liquid inlet head penetrates an X-shaped liquid outlet to feed liquid and a flow-blocking expansion ball blocks the liquid by water expansion, so that the technical problem of excessive overflow of water is solved; according to the situation that the ice bag falls off due to the fact that a child is easy to move during cold compress cooling, parents need to take care of the ice bag constantly and the cooling effect is poor, a head-wearing elastic wrapping and fixing mode is adopted, and the technical effect of stable attaching type uninterrupted cold compress cooling for the child is achieved; the technical effect of omnibearing multiple-effect physical cooling of children is realized by adopting a mode of combining air cooling and water cooling.

The technical scheme adopted by the invention is as follows: the invention provides a self-expansion liquid-control anti-overflow pediatric physical cooling device, which comprises a head-mounted elastic wrapping fixing sleeve, a flexible capillary porous cold compress device and a self-liquid-supply air-cooling device, wherein the flexible capillary porous cold compress device is arranged on the head-mounted elastic wrapping fixing sleeve, and the self-liquid-supply air-cooling device is arranged on the flexible capillary porous cold compress device; the flexible capillary porous cold compress device comprises a flexible capillary porous cold compress layer, a self-expansion liquid-blocking type liquid control assembly and a liquid filling cavity, wherein the flexible capillary porous cold compress layer is arranged on a head-wearing elastic wrapping fixing sleeve, the liquid filling cavity is uniformly arranged on the flexible capillary porous cold compress layer at intervals, and the self-expansion liquid-blocking type liquid control assembly is arranged in the liquid filling cavity.

Further, the liquid formula liquid control assembly is hindered to self-expanding includes that distributed liquid accuse flows telescopic cylinder, circular refrigeration piece and push type liquid accuse and flows the piece, distributed liquid accuse flows telescopic cylinder locates in filling the sap cavity, distributed liquid accuse flows telescopic cylinder is the hollow cylinder shape setting of top open-ended, circular refrigeration piece is located on the inboard diapire of distributed liquid accuse flows telescopic cylinder, push type liquid accuse flows the piece and locates on the inboard diapire of distributed liquid accuse flows telescopic cylinder.

Preferably, the peripheral wall of the outer side of the distributed liquid flow control telescopic cylinder is uniformly provided with side liquid separation holes at intervals.

Furthermore, even interval arrangement is equipped with down and divides the liquid hole on the flexible section of thick bamboo diapire of distributed liquid accuse stream, circular refrigeration piece is the interval setting with dividing the liquid hole down.

The press type liquid flow control part comprises a telescopic spring, a flow blocking expansion ball and a breakthrough liquid inlet head, wherein the telescopic spring is arranged on the bottom wall of the inner side of the distributed liquid flow control telescopic cylinder, the flow blocking expansion ball is arranged on the telescopic spring, and the breakthrough liquid inlet head is arranged on the flow blocking expansion ball; the distributed liquid flow control telescopic cylinder stretches to drive the telescopic spring to stretch, the telescopic spring stretches to drive the flow blocking expansion ball to stretch, the flow blocking expansion ball stretches to drive the break-through liquid inlet head to stretch, the break-through liquid inlet head stretches and inserts into the self-liquid supply air cooling device, cold water in the self-liquid supply air cooling device enters the distributed liquid flow control telescopic cylinder, the cold water is filled into the flexible capillary porous cold coating layer through the side liquid distribution hole and the lower liquid distribution hole, and the flow blocking expansion ball expands when meeting water to plug the distributed liquid flow control telescopic cylinder along with continuous filling of liquid, so that the technical effect of automatically preventing water flow from flowing in is achieved, and the technical problems that when the traditional towel wrapping ice bag is used for cold coating, water flows overflow excessively and flow is applied everywhere are solved.

Further, from supplying liquid air-cooled heat sink including refrigeration confession sap cavity, flexible confession liquid layer, X shape liquid outlet, bar refrigeration piece and air-cooled cooling subassembly, refrigeration is supplied the sap cavity and is located on the porous cold coating layer of flexible capillary, flexible confession liquid layer is located on the refrigeration confession sap cavity diapire, X shape liquid outlet is located on the flexible confession liquid layer, the bar refrigeration piece is located on the flexible confession liquid layer, air-cooled cooling subassembly is located on the refrigeration confession sap cavity.

As a further preference of the present invention, the air-cooled cooling assembly includes an air-cooled cooling fixing plate, a cooling motor, a cooling fan blade, a randomly bent cold air transmission pipe and an air flow dispersing head, the air-cooled cooling fixing plate is disposed in the refrigeration liquid supply cavity, the cooling motor is disposed on an upper wall of the air-cooled cooling fixing plate, the cooling fan blade is connected to an output end of the cooling motor, the randomly bent cold air transmission pipe is penetratingly disposed on the refrigeration liquid supply cavity, and the air flow dispersing head is penetratingly connected to the randomly bent cold air transmission pipe; the cooling motor rotates to drive the cooling fan blades to rotate, the cooling fan blades rotate to drive cold air in the refrigeration cavity to be transmitted to the random bending type cold air transmission pipe, the random bending type cold air transmission pipe is transmitted to the air flow dispersing head, and the requirements of blowing the cold air to different positions are met by bending the random bending type cold air transmission pipe.

Further, refrigeration is provided with the feed liquor subassembly on the liquid chamber, the feed liquor subassembly includes feed liquor pipe and shutoff lid, the feed liquor pipe link up refrigeration and supply liquid chamber and forced air cooling fixed plate to locate on refrigeration supplies the liquid chamber, the shutoff lid is dismantled and is located on the feed liquor pipe.

The head-wearing elastic wrapping fixed sleeve comprises an elastic wrapping sleeve, side fixing adjusting pieces and an upper fixing adjusting piece, wherein the side fixing adjusting pieces are symmetrically arranged on the elastic wrapping sleeve, and the upper fixing adjusting pieces are arranged above the elastic wrapping sleeve; the side is fixed the regulating part and can be adjusted the elasticity to the parcel nature of side, goes up fixed regulating part and can carry out the elasticity to the parcel nature of top and adjust to satisfy the children of different head footpaths and use.

Furthermore, the flow-resisting expansion ball is formed by mixing a high-molecular inorganic water-absorbing expansion material and rubber.

The invention with the structure has the following beneficial effects: the scheme provides a self-expansion liquid-control anti-overflow type paediatrics physical cooling device, according to the situation that water flows over when the traditional ice bag is cooled by cold compress, a self-expansion liquid-control mode is adopted, and the technical effect of stable cold compress cooling by self-supplying liquid-blocking is realized by breaking through the mode that a liquid inlet head penetrates an X-shaped liquid outlet to feed liquid and a flow-blocking expansion ball is combined with water-expansion liquid-blocking, so that the technical problem of excessive water flow overflow is solved; according to the situation that the ice bag falls off due to the fact that a child is easy to move during cold compress cooling, parents need to take care of the ice bag constantly and the cooling effect is poor, a head-wearing elastic wrapping and fixing mode is adopted, and the technical effect of stable attaching type uninterrupted cold compress cooling for the child is achieved; the technical effect of omnibearing multiple-effect physical cooling of children is realized by adopting a mode of combining air cooling and water cooling.

Drawings

FIG. 1 is a schematic view of the overall structure of a self-expanding liquid-control anti-overflow pediatric physical cooling device according to the present invention;

FIG. 2 is a left side view of a self-expanding, liquid-controlling, spill-resistant, pediatric physical cooling device in accordance with the present invention;

fig. 3 is a schematic structural view of a head-mounted elastic wrapped pouch;

FIG. 4 is a schematic diagram of a flexible capillary porous cold lay-up;

FIG. 5 is a front view of a flexible capillary porous cold lay;

FIG. 6 is a top view of a flexible capillary porous cold lay-up;

FIG. 7 is a schematic view of a self-expanding liquid-resistant liquid control assembly;

FIG. 8 is a left side view of the self-expanding liquid resistant fluid control assembly;

FIG. 9 is a cross-sectional view of the self-expanding liquid-resistant fluid control assembly;

FIG. 10 is a schematic structural view of a self-liquid-supplying air-cooled cooling device;

FIG. 11 is a rear view of the self-supplying air-cooled temperature reduction device;

FIG. 12 is a cross-sectional view of a self-supplying liquid air-cooled temperature reduction device;

FIG. 13 is a schematic view of a combination of a flexible capillary porous cold compress device and a self-liquid-supplying air-cooled temperature reduction device;

FIG. 14 is a sectional view of the combination of a flexible capillary porous cold compress device and a self-supplying air-cooled temperature reduction device;

fig. 15 is a schematic view of the combination of the cooling motor and the cooling fan blade.

The device comprises a head-mounted elastic wrapping fixing sleeve, a flexible capillary porous cold compressing device, a self-liquid-supply air-cooling device, a flexible capillary porous cold compressing layer, a self-expansion liquid-blocking liquid control component, a liquid filling cavity, a distributed liquid flow-control telescopic cylinder, a circular refrigerating sheet, a pressing-type liquid flow-control piece, 10 side liquid-dividing holes, 11 lower liquid-dividing holes, 12 telescopic springs, 13, a flow-blocking expansion ball, 14, a breakthrough liquid inlet head, 15, a refrigerating liquid supply cavity, 16, a flexible liquid supply layer, 17, an X-shaped liquid outlet, 18, a strip-shaped refrigerating sheet, 19, an air-cooling component, 20, an air-cooling fixing plate, 21, a cooling motor, 22, a cooling fan blade, 23, a random bending type cold air conveying pipe, 24, an air flow dispersing head, 25, a liquid inlet component, 26, a liquid inlet pipe, 27, a blocking cover, 28, an elastic wrapping sleeve, 29, a side fixing adjusting piece, 30 and an upper fixing adjusting piece.

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments; all other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present invention.

As shown in fig. 1, the invention provides a self-expansion liquid-control anti-overflow paediatrics physical cooling device, which comprises a head-wearing elastic wrapped fixing sleeve 1, a flexible capillary porous cold compress device 2 and a self-liquid-supply air-cooled cooling device 3, wherein the flexible capillary porous cold compress device 2 is arranged on the head-wearing elastic wrapped fixing sleeve 1, and the self-liquid-supply air-cooled cooling device 3 is arranged on the flexible capillary porous cold compress device 2.

As shown in fig. 1 and fig. 3, the head-wearing elastic-wrapped fixing sleeve 1 includes an elastic wrapping sleeve 28, side fixing adjusting pieces 29 and an upper fixing adjusting piece 30, the side fixing adjusting pieces 29 are symmetrically disposed on the elastic wrapping sleeve 28, and the upper fixing adjusting piece 30 is disposed above the elastic wrapping sleeve 28.

As shown in fig. 1, fig. 2, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8 and fig. 9, the flexible capillary porous cold compress device 2 comprises a flexible capillary porous cold compress layer 4, a self-expansion liquid-resistant liquid control component 5 and a liquid filling cavity 6, wherein the flexible capillary porous cold compress layer 4 is arranged on the head-wearing elastic wrapping fixing sleeve 1, the liquid filling cavities 6 are uniformly arranged on the flexible capillary porous cold compress layer 4 at intervals, and the self-expansion liquid-resistant liquid control component 5 is arranged in the liquid filling cavity 6; the self-expansion liquid-resistant liquid control assembly 5 comprises a distributed liquid flow control telescopic cylinder 7, a circular refrigerating sheet 8 and a pressing type liquid flow control member 9, wherein the distributed liquid flow control telescopic cylinder 7 is arranged in a liquid filling cavity 6, the distributed liquid flow control telescopic cylinder 7 is in a hollow cylindrical arrangement with an opening at the upper part, the circular refrigerating sheet 8 is arranged on the inner side bottom wall of the distributed liquid flow control telescopic cylinder 7, and the pressing type liquid flow control member 9 is arranged on the inner side bottom wall of the distributed liquid flow control telescopic cylinder 7; side liquid separation holes 10 are uniformly arranged on the circumferential wall at the outer side of the distributed liquid flow control telescopic cylinder 7 at intervals; lower liquid separation holes 11 are uniformly arranged on the bottom wall of the distributed liquid flow control telescopic cylinder 7 at intervals, and the circular refrigeration sheets 8 are arranged at intervals with the lower liquid separation holes 11; the press type liquid flow control part 9 comprises an expansion spring 12, a flow blocking expansion ball 13 and a breakthrough liquid inlet head 14, wherein the expansion spring 12 is arranged on the inner bottom wall of the distributed liquid flow control expansion cylinder 7, the flow blocking expansion ball 13 is arranged on the expansion spring 12, the breakthrough liquid inlet head 14 is arranged on the flow blocking expansion ball 13, and the flow blocking expansion ball 13 is formed by mixing a high-molecular inorganic water-absorbing expansion material and rubber.

As shown in fig. 1, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and fig. 15, the self-liquid-supplying air-cooling device 3 includes a refrigeration liquid-supplying cavity 15, a flexible liquid-supplying layer 16, an X-shaped liquid outlet 17, a bar-shaped refrigeration sheet 18, and an air-cooling assembly 19, wherein the refrigeration liquid-supplying cavity 15 is disposed on the flexible capillary porous cooling coating 4, the flexible liquid-supplying layer 16 is disposed on the bottom wall of the refrigeration liquid-supplying cavity 15, the X-shaped liquid outlet 17 is disposed on the flexible liquid-supplying layer 16, the bar-shaped refrigeration sheet 18 is disposed on the flexible liquid-supplying layer 16, and the air-cooling assembly 19 is disposed on the refrigeration liquid-supplying cavity 15; the air cooling assembly 19 comprises an air cooling fixing plate 20, a cooling motor 21, a cooling fan blade 22, a random bending type cold air transmission pipe 23 and an air flow dispersion head 24, the air cooling fixing plate 20 is arranged in the refrigerating liquid supply cavity 15, the cooling motor 21 is arranged on the upper wall of the air cooling fixing plate 20, the cooling fan blade 22 is connected with the output end of the cooling motor 21, the random bending type cold air transmission pipe 23 is arranged on the refrigerating liquid supply cavity 15 in a penetrating way, and the air flow dispersion head 24 is connected with the random bending type cold air transmission pipe 23 in a penetrating way; be equipped with feed liquor subassembly 25 on refrigeration confession sap cavity 15, feed liquor subassembly 25 includes feed liquor pipe 26 and shutoff lid 27, and feed liquor pipe 26 link up refrigeration confession sap cavity 15 and air-cooled cooling fixed plate 20 and locate on refrigeration confession sap cavity 15, and shutoff lid 27 is dismantled and is located on feed liquor pipe 26.

When the device is used, a child to be cooled lies on a bed, an elastic wrapping sleeve 28 is sleeved on the head of the child, the tightness of the wrapping is adjusted through a side fixed adjusting part 29 and an upper fixed adjusting part 30, after the tightness is adjusted, a square refrigerating sheet, a round refrigerating sheet 8 and a cooling motor 21 are started, the flexible capillary porous cold coating 4 is pressed, the flexible capillary porous cold coating 4 contracts to drive a distributed liquid flow control telescopic cylinder 7 to expand and contract, the distributed liquid flow control telescopic cylinder 7 expands and contracts to drive a telescopic spring 12 to expand and contract, the telescopic spring 12 expands and contracts to drive a flow blocking expansion ball 13 to expand and contract, the flow blocking expansion ball 13 expands and contracts to drive a breakthrough liquid inlet head 14 to expand and contract, the breakthrough liquid inlet head 14 is inserted into an X-shaped liquid outlet 17 in an opening mode, water flows into the distributed liquid flow control telescopic cylinder 7 through the X-shaped liquid outlet 17, and is filled into the flexible capillary porous cold coating 4 through a side liquid separating hole 10 and a lower liquid separating hole 11, along with the continuous filling of liquid, the flow blocking expansion ball 13 expands with water to block the distributed liquid flow control telescopic cylinder 7, thereby realizing the technical effect of automatically preventing water flow from flowing in, solving the technical problem that when the traditional towel wrapped ice bag is subjected to cold compress, the water flow overflows too much and flows everywhere, simultaneously, the round refrigerating sheet 8 keeps the water in the flexible capillary porous cold coating layer 4 at a continuous low temperature, thereby realizing the technical effect of continuous and stable cold compress cooling, simultaneously, the cooling motor 21 rotates to drive the cooling fan blades 22 to rotate, the cooling fan blades 22 rotate to drive cold air in the refrigerating cavity to be transmitted into the random bending type cold air transmission pipe 23, the cold air is transmitted into the air flow dispersion head 24 through the random bending type cold air transmission pipe 23, the requirements of different positions of cold air blowing are met through bending the random bending type cold air transmission pipe 23, and the technical effect of omnibearing cooling of children is realized, the specific working process of the invention is described above, and the steps are repeated when the device is used next time.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should be able to conceive of the present invention without creative design of the similar structural modes and embodiments without departing from the spirit of the present invention, and all such modifications should fall within the protection scope of the present invention.

Claims (10)

1. Paediatrics physics heat sink of anti-overflow formula of accuse liquid from inflation, its characterized in that: the device comprises a head-wearing elastic wrapping fixing sleeve (1), a flexible capillary porous cold compress device (2) and a self-liquid-supply air-cooling device (3), wherein the flexible capillary porous cold compress device (2) is arranged on the head-wearing elastic wrapping fixing sleeve (1), and the self-liquid-supply air-cooling device (3) is arranged on the flexible capillary porous cold compress device (2); the flexible capillary porous cold compress device (2) comprises a flexible capillary porous cold compress layer (4), a self-expansion liquid-blocking type liquid control assembly (5) and a liquid filling cavity (6), wherein the flexible capillary porous cold compress layer (4) is arranged on a head-wearing elastic wrapping fixing sleeve (1), the liquid filling cavity (6) is uniformly arranged on the flexible capillary porous cold compress layer (4) at intervals, and the self-expansion liquid-blocking type liquid control assembly (5) is arranged in the liquid filling cavity (6).

2. The self-expanding, liquid-controlled, spill-resistant, pediatric physical cooling device of claim 1, wherein: self-expanding hinders liquid formula liquid control subassembly (5) and flows piece (9) including distributed liquid accuse flow telescopic tube (7), circular refrigeration piece (8) and push type liquid accuse, liquid cavity (6) are filled in locating in distributed liquid accuse flow telescopic tube (7), distributed liquid accuse flow telescopic tube (7) are the hollow cylinder shape setting of top open-ended, circular refrigeration piece (8) are located on distributed liquid accuse flow telescopic tube (7) inboard diapire, push type liquid accuse flow piece (9) are located on distributed liquid accuse flow telescopic tube (7) inboard diapire.

3. The self-expanding, liquid-controlling, spill-resistant pediatric physical cooling device of claim 2, wherein: the circumferential wall of the outer side of the distributed liquid flow control telescopic cylinder (7) is uniformly provided with side liquid separation holes (10) at intervals.

4. The self-expanding, liquid-controlled, spill-resistant, pediatric physical cooling device of claim 3, wherein: even interval arrangement is equipped with down and divides liquid hole (11) on distributed liquid accuse flows telescopic cylinder (7) diapire, circular refrigeration piece (8) are the interval setting with lower minute liquid hole (11).

5. The self-expanding, liquid-controlling, spill-resistant pediatric physical cooling device of claim 4, wherein: the press type liquid flow control piece (9) comprises an expansion spring (12), a flow blocking expansion ball (13) and a breakthrough liquid inlet head (14), the expansion spring (12) is arranged on the inner side bottom wall of the distributed liquid flow control expansion cylinder (7), the flow blocking expansion ball (13) is arranged on the expansion spring (12), and the breakthrough liquid inlet head (14) is arranged on the flow blocking expansion ball (13).

6. The self-expanding, liquid-controlling, spill-resistant pediatric physical cooling device of claim 5, wherein: from supplying liquid air-cooled heat sink (3) including refrigeration confession sap cavity (15), flexible liquid supply layer (16), X shape liquid outlet (17), bar refrigeration piece (18) and air-cooled cooling subassembly (19), refrigeration confession sap cavity (15) is located on flexible capillary porous cold coating layer (4), on refrigeration confession sap cavity (15) diapire is located in flexible liquid supply layer (16), X shape liquid outlet (17) are located on flexible liquid supply layer (16), bar refrigeration piece (18) are located on flexible liquid supply layer (16), air-cooled cooling subassembly (19) are located on refrigeration confession sap cavity (15).

7. The self-expanding, liquid-controlling, spill-resistant pediatric physical cooling device of claim 6, wherein: air-cooled cooling subassembly (19) include air-cooled cooling fixed plate (20), cooling motor (21), cooling flabellum (22), bend at will formula cold wind transmission pipe (23) and wind flow dispersion head (24), refrigeration confession sap cavity (15) are located in air-cooled cooling fixed plate (20), cooling motor (21) are located on air-cooled cooling fixed plate (20) upper wall, cooling flabellum (22) link to each other with the output of cooling motor (21), bend at will formula cold wind transmission pipe (23) link up and locate on refrigeration confession sap cavity (15), wind flow dispersion head (24) link up with bend at will formula cold wind transmission pipe (23) and link to each other.

8. The self-expanding, liquid-controlling, spill-resistant pediatric physical cooling device of claim 7, wherein: air-cooled cooling subassembly (19) include air-cooled cooling fixed plate (20), cooling motor (21), cooling flabellum (22), bend at will formula cold wind transmission pipe (23) and wind flow dispersion head (24), refrigeration confession sap cavity (15) are located in air-cooled cooling fixed plate (20), cooling motor (21) are located on air-cooled cooling fixed plate (20) upper wall, cooling flabellum (22) link to each other with the output of cooling motor (21), bend at will formula cold wind transmission pipe (23) link up and locate on refrigeration confession sap cavity (15), wind flow dispersion head (24) link up with bend at will formula cold wind transmission pipe (23) and link to each other.

9. The self-expanding, liquid-controlled, spill-resistant, pediatric physical cooling device of claim 8, wherein: fixed cover (1) of wear-type elasticity parcel is including elasticity parcel cover (28), the fixed regulating part of side (29) and go up fixed regulating part (30), elasticity parcel cover (28) is located to the fixed regulating part of side (29) symmetry, it locates elasticity parcel cover (28) top to go up fixed regulating part (30).

10. The self-expanding, liquid-controlling, spill-resistant pediatric physical cooling device of claim 9, wherein: the flow-resisting expansion ball (13) is formed by mixing a high-molecular inorganic water-absorbing expansion material and rubber.

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