CN113855270B - Department of neurology nursing is with non-contact head measurement delivery device - Google Patents

Abstract

The invention discloses a non-contact head measurement and mold taking device for neurology nursing, which comprises a wrapping type slow-setting mold taking device, a mixed liquid active feeding device, a vortex type spiral stirring device and an integrated feeding device. The invention belongs to the technical field of neurology nursing auxiliary devices, and particularly relates to a non-contact head measurement and mold taking device for neurology nursing; according to the invention, through the wrapping type slow-setting mold-taking device, the single-sided elastic liquid sac is ensured to be fully attached to the head of a patient through the flowing liquid in the single-sided elastic liquid sac, so that the technical effect of taking a mold with extremely high precision is realized; in order to avoid the problem that the skull operation part is extruded due to weak strength, the invention fully utilizes the insufficient or excessive action principle and creatively provides an octopus-shaped protection component.

Description

Department of neurology nursing is with non-contact head measurement delivery device

Technical Field

The invention belongs to the technical field of neurology nursing auxiliary devices, and particularly relates to a non-contact head measurement and mold taking device for neurology nursing.

Background

In the postoperative care (artificial skull transplantation, craniotomy and the like) of neurology, a head nursing device is often required to be used for protecting the head, the size and the shape of the head of a patient need to be determined when various head nursing devices are manufactured, otherwise the head after the operation is seriously injured, so that the shape and the size of the head of the patient need to be accurately subjected to mold taking, common head mold taking mainly comprises a contact type mold taking mode and a non-contact type mold taking mode, the non-contact type mold taking mode usually obtains the head contour of the patient through electromagnetic wave scanning of X-ray and the like, but for a patient with sensitive brain focus or who just has undergone the craniotomy, negative effects caused by the X-ray cannot be borne, and extremely high risk exists.

However, the contact measurement method generally has the following problems:

a: if the space model is formed by only connecting sampling points, the measurement is necessarily inaccurate;

b: if the traditional plaster model is used, the low-temperature water easily stimulates the head of a patient, and the plaster is damaged more due to the low strength of the craniotomy when being extruded.

Therefore, the invention aims to solve the problem of how to perform high-efficiency and high-precision mold extraction and simultaneously reduce the influence of contact mold extraction on a patient as much as possible.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the invention provides the non-contact head measurement model taking device for the neurology nursing, which can perform high-efficiency and high-precision model taking and simultaneously reduce the influence of contact model taking on a patient as much as possible; in order to enable the obtained model and the head of the patient to have higher similarity, the invention creatively provides a wrapping type slow-sizing mold-taking device based on the principle of a flexible shell and a film, and the single-sided elastic liquid sac is ensured to be fully attached to the head of the patient through the flowing liquid in the single-sided elastic liquid sac, so that the technical effect of taking the mold with extremely high precision is realized; in order to avoid the problem that the skull operation part is extruded due to weak strength, the invention fully utilizes the insufficient or excessive action principle and creatively provides an octopus-shaped protection component.

In order to further reduce the influence of contact type mold taking on the head of a patient, the invention creatively provides a vortex type spiral stirring device based on a pre-action principle, which not only can stir and mix liquid under the non-contact condition, but also can heat the mixed liquid, and prevents the low temperature of the liquid from stimulating the patient.

The technical scheme adopted by the invention is as follows: the invention provides a non-contact head measurement and mold removal device for neurology nursing, which comprises a wrapping type slow-setting mold removal device, a mixed liquid active feeding device, a vortex type spiral stirring device and an integrated feeding device, the wrapped slow setting and mold-taking device is arranged on the mixed liquid active feeding device and has the function of molding and mold-taking, the active feeding device of the mixed liquid is arranged on the vortex type spiral stirring device and has the function of conveying the mixed liquid, the integrated feeding device is arranged on the vortex type spiral stirring device, the vortex type spiral stirring device can realize the stirring effect without a stirring rod, the hot air is blown into the device to be stirred and heated simultaneously, so that the cold liquid is prevented from stimulating the scalp of a patient, and the integrated feeding device can mix the two liquids; the wrapping type slow-setting mold taking device comprises a rigid gourd ladle-shaped shell, a constant-pressure mold taking assembly and an octopus-shaped protection assembly, wherein the rigid gourd ladle-shaped shell is made of rigid materials, a shell hemispherical portion is arranged on the rigid gourd ladle-shaped shell, a shell center round hole is formed in the shell hemispherical portion of the rigid gourd ladle-shaped shell, shell side round holes are symmetrically formed in the two sides of the shell center round hole of the rigid gourd ladle-shaped shell, the shell center round hole and the shell side round holes have the effect of avoiding positions, a shell tile-shaped portion is arranged on the rigid gourd ladle-shaped shell, the constant-pressure mold taking assembly is arranged on a mixed liquid active feeding device, and the octopus-shaped protection assembly is arranged in the constant-pressure mold taking assembly.

Further, the constant-pressure die-taking assembly comprises a single-sided elastic liquid bag and a rotary cover type pressure sensor, the single-sided elastic liquid bag can deform in a self-adaptive manner when the internal pressure is higher than the external pressure, a liquid bag hemispheric part is arranged on the single-sided elastic liquid bag, the inner layer of the liquid bag hemispheric part is in contact with the skin of the skull of a human body, the liquid bag hemispheric part is clamped in the shell hemispheric part, a liquid bag central pipe is arranged on the single-sided elastic liquid bag hemispheric part, mixed liquid is conveyed into the single-sided elastic liquid bag through the liquid bag central pipe, the liquid bag central pipe is clamped in a shell central circular hole, liquid bag side pipes are symmetrically arranged on the single-sided elastic liquid bag hemispheric part, the liquid bag side pipes are clamped in the shell side circular hole, the rotary cover type pressure sensor is clamped in the liquid bag side pipes, and a liquid bag tile-shaped part is arranged on the single-sided elastic liquid bag, the tile-shaped part of the liquid sac is clamped in the tile-shaped part of the shell, and the tile-shaped part of the liquid sac is in contact with the skin at the back of the head of a human body.

Preferably, the octopus-shaped protective component comprises a fixed circular base piece and an elastic bendable rubber band framework, the fixed circular base piece is arranged in the single-face elastic liquid bag, the fixed circular base piece has elasticity and can fix the position of the rubber band framework and prevent the elastic bendable rubber band framework from deviating, the fixed circular base piece is positioned at the central position of the hemispherical portion of the liquid bag, the elastic bendable rubber band framework is annularly and uniformly distributed on the fixed circular base piece and is arranged on the inner wall of the hemispherical portion of the liquid bag, the elastic bendable rubber band framework can be lengthened along with the expansion of the hemispherical portion of the liquid bag, the elastic bendable rubber band framework has the characteristic of keeping the straightness of the elastic bendable rubber band framework, so that bending with overlarge curvature cannot be generated, the rubber band framework bending avoiding grooves are arranged on the elastic bendable rubber band framework in an array mode, and the bendable elastic rubber band framework bending avoiding grooves can enable the bendable elastic rubber band framework to be bent more easily in the vertical direction .

Furthermore, mixed liquid initiative feed arrangement includes material loading pipe one, material loading pump, material loading pipe two and feeding joint, material loading pipe one block is located among the vortex formula spiral agitating unit, the material loading pump is located on the material loading pipe one, material loading pipe two is located on the material loading pump, feeding joint locates on the material loading pipe two, feeding joint block is located on the liquid bag center tube.

Furthermore, the vortex type spiral stirring device comprises a self-stirring container assembly and a self-stirring high-pressure air inlet assembly, wherein the self-stirring high-pressure air inlet assembly is arranged on one side of the self-stirring container assembly, and the feeding pipe I is clamped in the self-stirring container assembly; the self-stirring container assembly comprises a cylindrical spiral stirring barrel, a stirring barrel upper cover and a stirring barrel exhaust valve, wherein a stirring barrel feed inlet and a stirring barrel discharge port are formed in the cylindrical spiral stirring barrel, a feeding pipe is clamped in the stirring barrel discharge port, a stirring barrel inclined hole is formed in the side face of the cylindrical spiral stirring barrel, the stirring barrel upper cover is clamped on the cylindrical spiral stirring barrel, an upper cover round hole is formed in the stirring barrel upper cover, the stirring barrel exhaust valve is clamped in the upper cover round hole, and when the air pressure in the cylindrical spiral stirring barrel is too high, redundant air can be discharged through the stirring barrel exhaust valve.

As preferred, the subassembly that admits air includes high-pressure air nozzle, heating filter equipment and admission pipe from stirring high pressure, the high-pressure air nozzle block is located in the agitator inclined hole, on heating filter equipment located high-pressure air nozzle, heating filter equipment can heat the air that flows through from it, then the less high-pressure air nozzle high-speed blowout of rethread diameter stirs the liquid in the cylindrical spiral agitator, on admission pipe located heating filter equipment, admission pipe and external air supply were connected.

Further, integrated form feed arrangement includes main pipeline subassembly and a pipeline subassembly, main pipeline subassembly is located on the vortex formula spiral agitating unit, a pipeline subassembly is located on the main pipeline subassembly.

Preferably, main pipeline subassembly includes square storage case, main inlet pipe and main charge pump, on square storage case was located to the one end of main inlet pipe, the other end block of main inlet pipe was located in the agitator feed inlet, on main inlet pipe was located to the main charge pump, can extract the liquid in the square storage case through main charge pump, be equipped with the main pipe inclined hole on the main inlet pipe.

As a further preferred aspect of the present invention, the branch conveying pipeline assembly includes a branch feeding pipe, a coagulant aid storage bottle and an embedded branch feeding valve, the branch feeding pipe is clamped in the inclined hole of the main pipeline, the coagulant aid storage bottle is arranged on the coagulant aid storage bottle, and the embedded branch feeding valve is clamped in the branch feeding pipe.

The single-sided elastic liquid bag is made of elastic materials, and the elastic bendable rubber band framework is made of elastic materials.

The invention with the structure has the following beneficial effects: the non-contact head measurement and mold taking device for neurology nursing can achieve high-efficiency and high-precision mold taking and reduce the influence of contact mold taking on a patient as much as possible; in order to enable the obtained model and the head of the patient to have higher similarity, the invention creatively provides a wrapping type slow-sizing mold-taking device based on the principle of a flexible shell and a film, and the single-sided elastic liquid sac is ensured to be fully attached to the head of the patient through the flowing liquid in the single-sided elastic liquid sac, so that the technical effect of taking the mold with extremely high precision is realized; in order to avoid the problem that the skull operation part is extruded due to weak strength, the invention fully utilizes the insufficient or excessive action principle and creatively provides an octopus-shaped protection component.

In order to further reduce the influence of contact type mold taking on the head of a patient, the invention creatively provides a vortex type spiral stirring device based on a pre-action principle, which not only can stir and mix liquid under the non-contact condition, but also can heat the mixed liquid, and prevents the low temperature of the liquid from stimulating the patient.

Drawings

Fig. 1 is a first perspective view of a non-contact head measurement and mold removal device for neurology nursing, which is provided by the invention;

FIG. 2 is a second perspective view of a non-contact head measurement and mold removal device for neurology care in accordance with the present invention;

FIG. 3 is a front view of a non-contact head measurement and mold removal device for neurology care according to the present invention;

FIG. 4 is a top view of a non-contact head measurement and mold removal device for neurology care according to the present invention;

FIG. 5 is a left side view of a non-contact head measurement and mold removal device for neurology care in accordance with the present invention;

FIG. 6 is a cross-sectional view taken along section line A-A of FIG. 5;

FIG. 7 is a cross-sectional view taken along section line B-B of FIG. 3;

fig. 8 is a schematic structural diagram of a wrapped slow sizing and mold-taking device of a non-contact head measurement and mold-taking device for neurology nursing according to the present invention;

FIG. 9 is a schematic structural diagram of a mixed liquid active feeding device of a non-contact head measurement mold removal device for neurology care according to the present invention;

FIG. 10 is a schematic structural view of a vortex type spiral stirring device of a non-contact head measurement and mold removal device for neurology nursing according to the present invention;

FIG. 11 is a schematic structural diagram of an integrated feeding device of a non-contact head measurement and mold removal device for neurology nursing according to the present invention;

FIG. 12 is an enlarged view of a portion of FIG. 6 at I;

fig. 13 is a partial enlarged view of the point ii in fig. 6.

Wherein, 1, a wrapping type slow shaping mold taking device, 2, a mixed liquid active feeding device, 3, a vortex type spiral stirring device, 4, an integrated feeding device, 5, a rigid gourd ladle shaped shell, 6, a constant pressure mold taking component, 7, an octopus shaped protection component, 8, a shell semispherical part, 9, a shell central circular hole, 10, a shell side circular hole, 11, a shell tile shaped part, 12, a single-sided elastic type liquid bag, 13, a rotating cover type pressure sensor, 14, a fixed circular base sheet, 15, an elastic bendable rubber band framework, 16, a liquid bag semispherical part, 17, a liquid bag central tube, 18, a liquid bag side tube, 19, a liquid bag tile shaped part, 20, a rubber band framework bending avoidance groove, 21, a feeding tube I, 22, a feeding pump, 23, a feeding tube II, 24, a feeding joint, 25, a self-stirring container component, 26, a self-stirring high-pressure air inlet component, 27, a cylindrical spiral stirring barrel, 28. the stirring barrel comprises a stirring barrel upper cover, 29, a stirring barrel exhaust valve, 30, a high-pressure air nozzle, 31, a heating and filtering device, 32, an air inlet guide pipe, 33, a stirring barrel feeding hole, 34, a stirring barrel discharging hole, 35, a stirring barrel inclined hole, 36, an upper cover round hole, 37, a main conveying pipeline assembly, 38, a branch conveying pipeline assembly, 39, a square storage tank, 40, a main feeding pipe, 41, a main feeding pump, 42, a branch feeding pipe, 43, a coagulant aid storage bottle, 44, an embedded branch feeding valve, 45 and a main pipe inclined hole.

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 figure 1, the invention provides a non-contact head measurement mold taking device for neurology nursing, which comprises a wrapped slow-shaping mold taking device 1, a mixed liquid active feeding device 2, a vortex type spiral stirring device 3 and an integrated feeding device 4, wherein the wrapped slow-shaping mold taking device 1 is arranged on the mixed liquid active feeding device 2, the wrapped slow-shaping mold taking device 1 has the function of shaping mold taking, the mixed liquid active feeding device 2 is arranged on the vortex type spiral stirring device 3, the mixed liquid active feeding device 2 has the function of conveying mixed liquid, the integrated feeding device 4 is arranged on the vortex type spiral stirring device 3, the vortex type spiral stirring device 3 can realize the function of conveying mixed liquid without a stirring rod, the integrated feed device 4 can mix the two liquids by simultaneously stirring and heating the blown hot air to prevent the cold liquid from stimulating the scalp of the patient.

As shown in fig. 1, 3, 6, 7, 10 and 13, the vortex type spiral stirring device 3 includes a self-stirring container assembly 25 and a self-stirring high-pressure air inlet assembly 26, the self-stirring high-pressure air inlet assembly 26 is provided at one side of the self-stirring container assembly 25, and the mixed liquid active feeding device 2 is engaged with the self-stirring container assembly 25; the self-stirring container assembly 25 comprises a cylindrical spiral stirring barrel 27, a stirring barrel upper cover 28 and a stirring barrel exhaust valve 29, wherein a stirring barrel feeding port 33 and a stirring barrel discharging port 34 are formed in the cylindrical spiral stirring barrel 27, a stirring barrel inclined hole 35 is formed in the side face of the cylindrical spiral stirring barrel 27, the stirring barrel upper cover 28 is clamped on the cylindrical spiral stirring barrel 27, an upper cover circular hole 36 is formed in the stirring barrel upper cover 28, the stirring barrel exhaust valve 29 is clamped in the upper cover circular hole 36, and when the air pressure in the cylindrical spiral stirring barrel 27 is too high, redundant air can be exhausted through the stirring barrel exhaust valve 29; from stirring high pressure subassembly 26 that admits air includes high-pressure air nozzle 30, heating filter equipment 31 and admission pipe 32, the inclined hole 35 of agitator is located to high-pressure air nozzle 30 block, heating filter equipment 31 is located on high-pressure air nozzle 30, heating filter equipment 31 can heat the air that flows from it, then the less high-pressure air nozzle 30 high-speed blowout of rethread diameter, stir the liquid in cylindrical spiral agitator 27, admission pipe 32 is located on heating filter equipment 31, admission pipe 32 is connected with external air supply.

As shown in fig. 1 and 9, the active feeding device 2 for mixed liquid includes a first feeding pipe 21, a first feeding pump 22, a second feeding pipe 23, and a feeding joint 24, wherein the first feeding pipe 21 is clamped in a discharge port 34 of the stirring barrel, the first feeding pump 22 is arranged on the first feeding pipe 21, the second feeding pipe 23 is arranged on the feeding pump 22, and the feeding joint 24 is arranged on the second feeding pipe 23.

As shown in fig. 3, 4, 5, 6 and 8, the wrapped slow-setting mold removing device 1 comprises a rigid gourd ladle-shaped shell 5, a constant-pressure mold removing component 6 and an octopus-shaped protection component 7, wherein the rigid gourd ladle-shaped shell 5 is made of rigid material, a shell hemispherical portion 8 is arranged on the rigid gourd ladle-shaped shell 5, a shell central circular hole 9 is arranged on the shell hemispherical portion 8 of the rigid gourd ladle-shaped shell 5, shell side circular holes 10 are symmetrically arranged on two sides of the shell central circular hole 9 of the rigid gourd ladle-shaped shell 5, both the shell central circular hole 9 and the shell side circular holes 10 have the function of avoiding positions, a shell tile-shaped portion 11 is arranged on the rigid gourd ladle-shaped shell 5, the constant-pressure mold removing component 6 is arranged on the mixed liquid active feeding device 2, and the octopus-shaped protection component 7 is arranged in the constant-pressure mold removing component 6; the constant pressure mould taking assembly 6 comprises a single-sided elastic liquid bag 12 and a rotary cover type pressure sensor 13, the single-sided elastic liquid bag 12 can be deformed in a self-adaptive manner when the internal pressure is higher than the external pressure, a liquid bag hemispheric part 16 is arranged on the single-sided elastic liquid bag 12, the inner layer of the liquid bag hemispheric part 16 is contacted with the skin of the skull of a human body, the liquid bag hemispheric part 16 is clamped in a shell hemispheric part 8, a liquid bag central pipe 17 is arranged on the liquid bag hemispheric part 16 of the single-sided elastic liquid bag 12, mixed liquid is conveyed into the single-sided elastic liquid bag 12 through the liquid bag central pipe 17, the liquid bag central pipe 17 is clamped in a shell central circular hole 9, a feeding joint 24 is clamped on the liquid bag central pipe 17, liquid bag side pipes 18 are symmetrically arranged on the liquid bag hemispheric part 16 of the single-sided elastic liquid bag 12, the liquid bag side pipes 18 are clamped in the shell side circular hole 10, the rotary cover type pressure sensor 13 is clamped on the liquid bag side pipes 18, the single-sided elastic type liquid sac 12 is provided with a liquid sac tile-shaped part 19, the liquid sac tile-shaped part 19 is clamped in the shell tile-shaped part 11, and the liquid sac tile-shaped part 19 is contacted with the skin at the back of the head of a human body; the octopus-shaped protective component 7 comprises a fixed circular base piece 14 and an elastic bendable rubber band framework 15, the fixed circular base piece 14 is arranged in a single-face elastic type liquid bag 12, the fixed circular base piece 14 has elasticity and can fix the position of the elastic bendable rubber band framework 15 and prevent the elastic bendable rubber band framework 15 from deviating, the fixed circular base piece 14 is positioned at the central position of a liquid bag semispherical part 16, the elastic bendable rubber band framework 15 is annularly and uniformly distributed on the fixed circular base piece 14, the elastic bendable rubber band framework 15 is arranged on the inner wall of the liquid bag semispherical part 16, the elastic bendable rubber band framework 15 can be lengthened along with the expansion of the liquid bag semispherical part 16, as the elastic bendable rubber band framework 15 has the characteristic of keeping the straightness, bending with overlarge curvature can not be generated, a rubber band framework bending avoiding groove 20 is arranged on the elastic bendable rubber band framework 15 in an array, the elastic bendable rubber band framework 15 can be bent more easily in the vertical direction through the rubber band framework bending avoiding groove 20.

As shown in fig. 1, 2, 3, 11 and 12, the integrated feeding device 4 includes a main conveying pipe assembly 37 and a branch conveying pipe assembly 38, the main conveying pipe assembly 37 is disposed on the vortex type helical stirring device 3, and the branch conveying pipe assembly 38 is disposed on the main conveying pipe assembly 37; the main conveying pipeline assembly 37 comprises a square storage tank 39, a main feeding pipe 40 and a main feeding pump 41, one end of the main feeding pipe 40 is arranged on the square storage tank 39, the other end of the main feeding pipe 40 is clamped in the feeding hole 33 of the stirring barrel, the main feeding pump 41 is arranged on the main feeding pipe 40, liquid in the square storage tank 39 can be extracted through the main feeding pump 41, and a main pipe inclined hole 45 is formed in the main feeding pipe 40; the branch feeding pipe assembly 38 comprises a branch feeding pipe 42, a coagulant aid storage bottle 43 and an embedded branch feeding valve 44, wherein the branch feeding pipe 42 is clamped in the inclined hole 45 of the main pipe, the coagulant aid storage bottle 43 is arranged on the coagulant aid storage bottle 43, and the embedded branch feeding valve 44 is clamped in the branch feeding pipe 42.

The single-sided elastic liquid bag 12 is made of elastic material, and the elastic bendable rubber band framework 15 is made of elastic material.

When the device is used specifically, firstly, a user needs to extract mold-taking liquid from the square storage tank 39 to the cylindrical spiral stirring barrel 27 through the main feeding pump 41, the mixing proportion of the coagulation-assisting liquid is controlled through the embedded branch feeding valve 44, after a certain amount of mixed liquid enters the cylindrical spiral stirring barrel 27, the heating and filtering device 31 is opened, air passing by the user is filtered and heated through the heating and filtering device 31, the cleanliness degree in the cylindrical spiral stirring barrel 27 and the problem of the mixed liquid are guaranteed, and the mixed liquid is stirred in the cylindrical spiral stirring barrel 27 in a rotating mode and is slowly heated through continuously blowing hot air flowing at a high speed to one side of the cylindrical spiral stirring barrel 27; when the temperature and the mixing time reach, the patient lies down and the head of the patient is placed in the single-sided elastic liquid bag 12, then the feeding pump 22 is started, the feeding joint 24 is connected to the liquid bag central tube 17 after air in the feeding tube I21 and the feeding tube II 23 is emptied, and then the mixed liquid with the temperature slightly higher than the temperature of the human body is slowly pumped into the single-sided elastic liquid bag 12; the single-sided elastic liquid bag 12 is free of air, the inner layer and the outer layer are in a joint state originally, the single-sided elastic liquid bag 12 is gradually jointed with the head of a patient along with the increase of liquid in the single-sided elastic liquid bag 12, the single-sided elastic liquid bag 12 stops when the rotary cover type pressure sensor 13 reaches a certain value, the liquid in the single-sided elastic liquid bag 12 is solidified into a solid state after standing for a period of time, the inside of the single-sided elastic liquid bag 12 is fixedly adhered to the solidified part, the head of the patient is removed to obtain a head shape model of the patient, the whole working process is the whole working process of the invention, and the step is repeated when the liquid 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 appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (8)

1. The utility model provides a department of neurology nursing is with non-contact head measurement device of getting patterns which characterized in that: the device comprises a wrapped slow-setting mold taking device (1), a mixed liquid active feeding device (2), a vortex type spiral stirring device (3) and an integrated feeding device (4), wherein the wrapped slow-setting mold taking device (1) is arranged on the mixed liquid active feeding device (2), the mixed liquid active feeding device (2) is arranged on the vortex type spiral stirring device (3), and the integrated feeding device (4) is arranged on the vortex type spiral stirring device (3); the wrapping type slow-setting mold taking device (1) comprises a rigid gourd ladle-shaped shell (5), a constant-pressure mold taking assembly (6) and an octopus-shaped protection assembly (7), wherein a shell hemispherical part (8) is arranged on the rigid gourd ladle-shaped shell (5), a shell central round hole (9) is formed in the shell hemispherical part (8) of the rigid gourd ladle-shaped shell (5), shell side round holes (10) are symmetrically formed in two sides of the shell central round hole (9) of the rigid gourd ladle-shaped shell (5), a shell tile-shaped part (11) is arranged on the rigid gourd ladle-shaped shell (5), the constant-pressure mold taking assembly (6) is arranged on the mixed liquid active feeding device (2), and the octopus-shaped protection assembly (7) is arranged in the constant-pressure mold taking assembly (6);

the constant-pressure mold taking assembly (6) comprises a single-sided elastic liquid bag (12) and a spiral cover type pressure sensor (13), the single-sided elastic liquid sac (12) is provided with a liquid sac semispherical part (16), the liquid sac semispherical part (16) is clamped in the shell semispherical part (8), the single-sided elastic liquid sac (12) is provided with a liquid sac central tube (17) on a liquid sac semispherical part (16), the liquid sac central tube (17) is clamped in the shell central circular hole (9), the single-sided elastic liquid sac (12) is symmetrically provided with liquid sac side tubes (18) on a liquid sac semisphere part (16), the liquid sac side tube (18) is clamped in the shell side round hole (10), the rotary cover type pressure sensor (13) is clamped on the liquid sac side tube (18), the single-sided elastic type liquid sac (12) is provided with a liquid sac tile-shaped part (19), and the liquid sac tile-shaped part (19) is clamped in the shell tile-shaped part (11);

octopus shape protection component (7) are including fixed circular base piece (14) and elasticity flexible rubber band skeleton (15), single face elasticity formula liquid bag (12) are located in fixed circular base piece (14), the central point that fixed circular base piece (14) are located liquid bag hemisphere portion (16) puts, elasticity flexible rubber band skeleton (15) annular equipartition is located on fixed circular base piece (14), on the nexine inner wall of liquid bag hemisphere portion (16) is located in elasticity flexible rubber band skeleton (15), array is equipped with rubber band skeleton bending and keeps away position groove (20) on elasticity flexible rubber band skeleton (15).

2. The non-contact head measurement and mold removal device for neurology nursing according to claim 1, wherein: mix liquid initiative feed arrangement (2) and include material loading pipe (21), material loading pump (22), material loading pipe two (23) and feeding joint (24), material loading pipe (21) block is located in vortex formula spiral agitating unit (3), material loading pump (22) are located on material loading pipe (21), material loading pipe two (23) are located on material loading pump (22), material loading joint (24) are located on material loading pipe two (23), feeding joint (24) block is located on liquid bag center tube (17).

3. The non-contact head measurement and mold removal device for neurology nursing according to claim 2, wherein: the vortex type spiral stirring device (3) comprises a self-stirring container assembly (25) and a self-stirring high-pressure air inlet assembly (26), wherein the self-stirring high-pressure air inlet assembly (26) is arranged on one side of the self-stirring container assembly (25), and the feeding pipe I (21) is clamped in the self-stirring container assembly (25); the self-stirring container assembly (25) comprises a cylindrical spiral stirring barrel (27), a stirring barrel upper cover (28) and a stirring barrel exhaust valve (29), wherein a stirring barrel feeding port (33) and a stirring barrel discharging port (34) are formed in the cylindrical spiral stirring barrel (27), a feeding pipe (21) is clamped in the stirring barrel discharging port (34), a stirring barrel inclined hole (35) is formed in the side face of the cylindrical spiral stirring barrel (27), the stirring barrel upper cover (28) is clamped in the cylindrical spiral stirring barrel (27), an upper cover round hole (36) is formed in the stirring barrel upper cover (28), and the stirring barrel exhaust valve (29) is clamped in the upper cover round hole (36).

4. The non-contact head measurement and mold removal device for neurology nursing according to claim 3, wherein: from stirring high pressure air intake assembly (26) including high-pressure air nozzle (30), heating filter equipment (31) and inlet duct (32), high-pressure air nozzle (30) block is located in agitator inclined hole (35), heating filter equipment (31) are located on high-pressure air nozzle (30), inlet duct (32) are located on heating filter equipment (31).

5. The non-contact head measurement and mold removal device for neurology nursing according to claim 4, wherein: integrated form feed arrangement (4) are including main pipeline subassembly (37) and branch pipeline subassembly (38), main pipeline subassembly (37) are located on vortex formula spiral agitating unit (3), branch pipeline subassembly (38) are located on main pipeline subassembly (37).

6. The non-contact head measurement and mold removal device for neurology nursing according to claim 5, wherein: main pipeline subassembly (37) are including square storage case (39), main inlet pipe (40) and main charge pump (41), the one end of main inlet pipe (40) is located on square storage case (39), the other end block of main inlet pipe (40) is located in agitator feed inlet (33), main charge pump (41) are located on main inlet pipe (40), be equipped with trunk line inclined hole (45) on main inlet pipe (40).

7. The non-contact head measurement and mold removal device for neurology nursing according to claim 6, wherein: a pipeline subassembly (38) is including a feed pipe (42), coagulant aid storage bottle (43) and embedded branch feed valve (44), branch feed pipe (42) block is located in trunk line inclined hole (45), coagulant aid storage bottle (43) are located on coagulant aid storage bottle (43), embedded branch feed valve (44) block is located in a feed pipe (42).

8. The non-contact head measurement and mold removal device for neurology nursing according to claim 7, wherein: the single-sided elastic liquid bag (12) is made of elastic materials, and the elastic bendable rubber band framework (15) is made of elastic materials.

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