CN115300713B

CN115300713B - Self-extrusion magnetic control type transfusion nursing support convenient to use

Info

Publication number: CN115300713B
Application number: CN202210889057.6A
Authority: CN
Inventors: 王颖
Original assignee: Zhongda Hospital of Southeast University
Current assignee: Zhongda Hospital of Southeast University
Priority date: 2022-07-27
Filing date: 2022-07-27
Publication date: 2023-09-05
Anticipated expiration: 2042-07-27
Also published as: CN115300713A

Abstract

The invention discloses a convenient-to-use self-extrusion magnetic control transfusion nursing bracket which comprises a moving assembly, a self-extrusion magnetic control storage assembly, a fixed assembly, a bracket and a skimming support assembly, wherein the skimming support assembly is arranged at the lower end of the bracket, the fixed assembly is arranged on the bracket, the moving assembly is arranged at the upper end of the fixed assembly, and the self-extrusion magnetic control storage assembly is arranged on the moving assembly. The invention belongs to the technical field of transfusion, and particularly relates to a self-extrusion magnetic control transfusion nursing bracket convenient to use; by arranging the self-extrusion magnetic control block I and the self-extrusion magnetic control block II, when the infusion bag is folded, extrusion of the infusion bag can be realized in an integral form, and circulation of liquid in the infusion bag is quickened; during dispersion, the self-extrusion magnetic control blocks I and the self-extrusion magnetic control blocks II at different positions respectively extrude the infusion bag, so that circulation and mixing of internal liquid are realized.

Description

Self-extrusion magnetic control type transfusion nursing support convenient to use

Technical Field

The invention belongs to the technical field of transfusion, and particularly relates to a self-extrusion magnetic control transfusion nursing support convenient to use.

Background

In clinical treatment, an infusion set is a common medical consumable, and is commonly used for intravenous infusion to treat diseases by means of infusion. At present, a common medical disposable transfusion system is mostly adopted in the transfusion process, the disposable transfusion system consists of a dropping funnel, a liquid inlet pipe and a transfusion pipe, one end of the dropping funnel is provided with the liquid inlet pipe, the end head of the liquid inlet pipe is provided with a liquid inlet pipe bottle plug puncture needle head, and the liquid inlet pipe bottle plug puncture needle head is provided with an air inlet pipe.

However, most of the existing transfusion devices are relatively high, and some patients or nurses need to expend much effort to touch the top, and the place where transfusion is placed is not well fixed, so that the transfusion device is always swayed during transfusion, and is not beneficial to transfusion.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the invention provides the self-extrusion magnetic control type transfusion nursing bracket which is convenient to use, and when the self-extrusion magnetic control block I and the self-extrusion magnetic control block II are folded, extrusion of a transfusion bag can be realized in an integral form, and circulation of liquid in the transfusion bag is quickened; during dispersion, the self-extrusion magnetic control blocks I and the self-extrusion magnetic control blocks II at different positions respectively extrude the infusion bag, so that circulation and mixing of internal liquid are realized.

The technical scheme adopted by the invention is as follows: the invention provides a convenient-to-use self-extrusion magnetic control type transfusion nursing bracket which comprises a moving assembly, a self-extrusion magnetic control storage assembly, a fixed assembly, a bracket and a skimming type supporting assembly, wherein the skimming type supporting assembly is arranged at the lower end of the bracket; the automatic extrusion magnetic control storage assembly comprises an automatic extrusion magnetic control storage part I, an automatic extrusion magnetic control storage part II and an infusion bag heat preservation part, the automatic extrusion magnetic control storage part I and the automatic extrusion magnetic control storage part II are movably arranged on the moving assembly, the moving assembly supports and fixes the automatic extrusion magnetic control storage part I and the automatic extrusion magnetic control storage part II, the automatic extrusion magnetic control storage part I and the automatic extrusion magnetic control storage part II are connected through magnetism, the infusion bag heat preservation part is movably arranged between the automatic extrusion magnetic control storage part I and the automatic extrusion magnetic control storage part II, in cold time, liquid in the infusion bag is cold, direct infusion easily causes discomfort of a patient, the infusion bag heat preservation part can carry out heating treatment on liquid in the infusion bag, the automatic extrusion magnetic control storage part I comprises a clamping part I, an automatic extrusion magnetic control storage part body, a spring I and an automatic extrusion magnetic control block I, the clamping part I is arranged at the upper end of the automatic extrusion magnetic control storage part I, one end of the spring I is connected with an inner side wall of the automatic extrusion magnetic control storage part I, the automatic extrusion magnetic control storage part I is connected with a plurality of self-extrusion magnetic control blocks, and the other end of the automatic extrusion magnetic control storage part I is connected with the automatic extrusion magnetic control storage part I through a plurality of adjacent inner side walls.

The second self-extrusion magnetic control storage part comprises a second clamping part, a second self-extrusion magnetic control storage part body, a second spring and a second self-extrusion magnetic control block, wherein the second clamping part is arranged at the upper end of the second self-extrusion magnetic control storage part body, one end of the second spring is connected with the inner side wall of the second self-extrusion magnetic control storage part, the second self-extrusion magnetic control block is connected with the other end of the second spring, the second self-extrusion magnetic control block is arranged on the inner side wall of the second self-extrusion magnetic control storage part, a plurality of groups of second self-extrusion magnetic control blocks are arranged, and the two adjacent self-extrusion magnetic control blocks of the plurality of groups are connected through magnetism.

As a preferred mode of the invention, the first clamping piece and the second clamping piece are respectively provided with a first coil, when the first clamping piece and the second clamping piece are required to be fixed, the first coil and the second coil in the first clamping piece are respectively communicated with different currents, the generated magnetic fields are different to realize mutual attraction, the first coil and the fourth coil of the adjacent side wall of the first self-extrusion magnetic control storage piece are respectively provided with a second coil, when the first self-extrusion magnetic control storage piece and the second self-extrusion magnetic control storage piece are required to be fixed with infusion bags, the second coil in the first self-extrusion magnetic control piece is respectively communicated with different currents, the generated magnetic fields are different to realize mutual attraction, the first coil and the second self-extrusion magnetic control piece are respectively provided with a third coil and a fourth coil, the fourth coil of the adjacent side wall of the first self-extrusion magnetic control piece is respectively arranged on the adjacent side wall of the first self-extrusion magnetic control piece, the fourth coil of the adjacent side wall of the first self-extrusion magnetic control piece is mutually attracted, the fourth coil of the adjacent side wall of the second self-extrusion magnetic control piece is respectively dispersed to mutually, and the first self-extrusion magnetic control piece and the second self-extrusion magnetic control piece are respectively arranged in the self-extrusion magnetic control piece, and the self-extrusion magnetic control piece can be mutually attracted by the first self-extrusion magnetic control piece and the self-extrusion magnetic control piece respectively; when the infusion bag is required to be stored, the first coil and the second coil are powered off, after the first self-extrusion magnetic control storage part and the second self-extrusion magnetic control storage part are separated, the first self-extrusion magnetic control storage part and the second self-extrusion magnetic control storage part slide along the moving assembly respectively, the infusion bag is arranged in the first self-extrusion magnetic control storage part and the second self-extrusion magnetic control storage part, the first clamping part and the second clamping part are required to be fixed, the first coils in the first self-extrusion magnetic control storage part and the second self-extrusion magnetic control storage part are respectively electrified with different currents, the generated magnetic fields are different, the mutual attraction is realized, when the liquid in the infusion bag is required to be mixed, the first coils and the second coils in the second self-extrusion magnetic control part are not electrified, the corresponding first self-extrusion magnetic control block and the second self-extrusion magnetic control block are respectively attracted, the first spring and the second spring are respectively attracted, the first self-extrusion magnetic control block and the second spring are driven by the first self-extrusion magnetic control block and the second self-extrusion magnetic control block are respectively, and the self-extrusion magnetic control block and the second self-extrusion magnetic control block are driven to be in the same in position, and the infusion bag is not extruded, and the self-extrusion magnetic control bag is automatically extruded, and the infusion bag is automatically and automatically extruded; when the infusion is required to be quickened, after the four coils are electrified, the self-extrusion magnetic control block I and the self-extrusion magnetic control block II which are adjacent to each other form a whole, then the coil III is respectively electrified with different currents, the self-extrusion magnetic control block I which is integrated and the self-extrusion magnetic control block II which is integrated are attracted to each other, the infusion bag is extruded, and liquid in the infusion bag circulates in an accelerating mode.

Preferably, the second self-extrusion magnetic control storage part body is provided with a fixing bolt, the first self-extrusion magnetic control storage part body is internally provided with a clamping groove part, the fixing bolt is matched with the clamping groove part, the infusion bag is arranged on the fixing bolt, and when the second self-extrusion magnetic control storage part body and the first self-extrusion magnetic control storage part body are connected with each other, the fixing bolt for fixing the infusion bag is inserted into the clamping groove part.

Preferably, a second storage cavity is formed in the support, an electric heating wire is arranged in the side wall of the second storage cavity, the skimming type supporting component comprises a pushing component, a dredging plate and a skimming type supporting piece, the pushing component is arranged in the second storage cavity, the dredging plate is arranged in the second storage cavity, the pushing component is arranged at the upper end of the dredging plate, one end of the skimming type supporting piece is connected with the dredging plate, and the other end of the skimming type supporting piece penetrates through the support; the pushing component comprises a second hydraulic rod and a pressing piston, the fixed end of the second hydraulic rod is arranged on the upper wall in the second storage cavity, the pressing piston is movably arranged in the second storage cavity, the pressing piston is connected with the movable end of the second hydraulic rod, the second hydraulic rod is used for pushing the pressing piston to be arranged along the second storage cavity, the pressing piston and the second storage cavity are arranged in a sealing mode, the second storage cavity is internally provided with bio-plastics, the edible bio-plastics, namely FORMcard, are made of organic plastics, become soft and flexible after being heated, can be as rubber paste, become hard after being cooled, can be repeatedly used without wearing and breaking or deforming, the bio-plastics are arranged between the pressing piston and the second storage cavity, when the electric heating wire is used for heating, the bio-plastics in the second storage cavity are softened, and the softened bio-plastics are extruded into the skimming support piece when the pressing piston moves downwards.

Further, a gas transmission component is arranged in the side wall of the second storage cavity, a dredging hole and a vent hole are arranged in the dredging plate, the dredging hole penetrates through the dredging plate and is connected with the biological plastic, the vent hole is arranged in the dredging plate and penetrates through the bottom wall of the dredging plate, the gas transmission component is connected with the vent hole, the dispersed type support comprises a dispersed type inner support, a dispersed type inner bag-shaped member and a dispersed type outer bag-shaped member, the upper end of the dispersed type outer support is in through connection with the vent hole, the dispersed type inner support is arranged in the dispersed type outer support, the upper end of the dispersed type inner support is in through connection with the dredging hole, the dispersed type inner support and the dispersed type outer support are in sleeved mode, an air circulation channel is arranged between the dispersed type inner support and the dispersed type outer support, the upper end of the skimming type inner bag member is connected with the lower end of the skimming type outer support member, the skimming type outer bag member is provided with an exhaust hole, so that gas can be conveniently discharged, the skimming type inner bag member and the skimming type outer bag member are arranged in a sleeved mode, an air circulation channel is arranged between the skimming type inner bag member and the skimming type outer bag member, the skimming type inner bag member and the skimming type outer bag member are arranged by adopting flexible materials, and the skimming type inner bag member and the skimming type outer bag member can be expanded in a specific shape after being inflated by adopting the flexible materials; when the support needs to be supported and fixed, the skimming type support piece extends out of the support, the electric heating wire is used for heating the biological plastics, meanwhile, the gas transmission component is used for transmitting gas to the channel for air circulation between the skimming type inner support piece and the skimming type outer support piece through the vent holes, the skimming type inner support piece and the skimming type outer support piece are unfolded in a specific shape under the action of air pressure, the unfolded skimming type inner support piece and the skimming type outer support piece extend out of the support and are arranged on the ground, then the hydraulic rod II is used for pushing the pushing piston to move along the storage cavity II, the softened biological plastics are extruded into the opened skimming type inner support piece and the skimming type inner support piece through the dredging holes when the pushing piston moves downwards, the vent holes on the skimming type outer support piece are opened, and the gas transmission component is used for transmitting cold air to the channel, so that the biological plastics can be cooled and shaped conveniently.

The movable magnetic control storage device comprises a support, a first storage cavity is arranged in the support, a sliding groove is formed in the support, the sliding groove is connected with the storage cavity in a penetrating mode, the movable assembly comprises a first hydraulic rod, a support plate, a movable plate and a telescopic rod, the fixed end of the first hydraulic rod is arranged on the inner upper wall of the first storage cavity, the support plate is arranged on the inner side wall of the first storage cavity, the movable end of the first hydraulic rod penetrates through the support plate, one end of the telescopic rod is connected with the support plate, the movable plate penetrates through the sliding groove, the center of the movable plate is arranged in the first storage cavity, the periphery of the movable plate is arranged outside the support, the movable plate is connected with the other end of the telescopic rod and the movable end of the first hydraulic rod, and the self-extrusion magnetic control storage assembly is arranged on the movable plate; the first work of hydraulic stem promotes the movable plate and slides along the sliding tray, and the movable plate changes the height on the support, and the nursing staff of different heights of being convenient for use.

The movable plate is internally provided with an annular groove, an annular clamping piece is arranged in the annular groove, the annular clamping piece is movably arranged in the annular groove, the bottom wall of the annular clamping piece is provided with a fixing ring, the fixing ring penetrates through the first clamping piece and the second clamping piece, and the first clamping piece and the second clamping piece can move along the fixing ring.

As a preferred mode of the invention, the fixing assembly comprises a fixing annular piece, a fixing clamping piece, an air pump and a fixing air bag, wherein the fixing annular piece is arranged on the support, the fixing clamping piece is connected with the fixing annular piece, a clamping groove is formed in the fixing clamping piece, the fixing air bag is arranged in the clamping groove, the air pump is arranged in the support, the air pump is connected with the fixing air bag, when the support needs to be fixed, the support is clamped on a support rod at the bedside, the support rod is clamped in the clamping groove, the air pump is used for conveying air into the fixing air bag, and the support rod is clamped and fixed after the fixing air bag bulges.

Preferably, a controller is arranged in the bracket, a first key component, a second key component and a third key component are arranged on the bracket, the first key component, the second key component and the third key component are electrically connected with the controller, and the controller is electrically connected with the first hydraulic rod, the second hydraulic rod, the air pump, the electric heating wire and the air transmission component; the first key assembly controls the working states of the first hydraulic rod and the second hydraulic rod, the second key assembly controls the working states of the electric heating wire and the gas transmission assembly, and the third key assembly controls the working states of the coils.

The beneficial effects obtained by the invention by adopting the structure are as follows: the scheme provides a self-extrusion magnetic control type transfusion nursing support convenient to use, and has the following beneficial effects:

(1) The self-extrusion magnetic control block I and the self-extrusion magnetic control block II which are oppositely arranged attract each other respectively to adsorb the corresponding self-extrusion magnetic control block I and the self-extrusion magnetic control block II, so that after extrusion of the infusion bag is realized, circulation mixing of internal liquid is realized.

(2) After the coil is electrified, the self-extrusion magnetic control block I and the self-extrusion magnetic control block II which are adjacent to each other form a whole, then the coil III is respectively electrified with different currents to form the whole self-extrusion magnetic control block I and the whole self-extrusion magnetic control block II which are attracted to each other, the infusion bag is extruded, and liquid in the infusion bag circulates in an accelerating way.

(3) The fixing bolt and the clamping groove piece are arranged, so that the infusion bag can be conveniently arranged on the fixing bolt.

(4) The skimming inner support and the skimming outer support are made of hard materials, so that the circulation of the biological plastics is facilitated; the skimming inner bag-shaped part and the skimming outer bag-shaped part are made of flexible materials, the materials are similar to swim rings, and the swimming ring can be unfolded in a specific shape after being inflated, so that the filling of biological plastics is facilitated.

Drawings

FIG. 1 is a front view of a self-extruding magnetically controlled infusion care support of the present invention;

FIG. 2 is a perspective view of a self-extruding magnetically controlled infusion care support of the present invention with a retracted skimmed support assembly;

FIG. 3 is a perspective view of a self-extruding magnetically controlled infusion care support of the present invention with its skimmed support assembly extended for use;

FIG. 4 is an enlarged view of a portion of FIG. 3 at A;

FIG. 5 is a front view of a self-squeezing magnetic control storage part I of a self-squeezing magnetic control infusion nursing bracket for convenient use;

FIG. 6 is a perspective view of a suction-type self-squeezing magnetic control storage member I of an elastic shielding member of a self-squeezing magnetic control infusion care stand for convenient use according to the present invention;

FIG. 7 is a partial enlarged view at B of FIG. 6;

FIG. 8 is a view showing the use state of a self-squeezing magnetic control storage assembly of a self-squeezing magnetic control infusion nursing bracket which is convenient to use;

FIG. 9 is a front view of an infusion bag thermal insulation member of a self-squeezing magnetic control infusion care support for convenient use;

FIG. 10 is a top view of a convenient-to-use self-squeezing magnetically controlled infusion care support fastening assembly according to the present invention;

fig. 11 is a top view of a mobile plate of a self-pressing magnetic control infusion nursing bracket for convenient use.

Wherein, 1, a moving component, 2, a self-extrusion magnetic control storage component, 3, a fixed component, 4, a bracket, 5, a skimming type supporting component, 6, a self-extrusion magnetic control storage component I, 7, a self-extrusion magnetic control storage component II, 8, an infusion bag heat preservation component, 9, a clamping component I, 10, a self-extrusion magnetic control storage component I body, 11, a spring I, 12, a self-extrusion magnetic control block I, 13, a clamping component II, 14, a self-extrusion magnetic control storage component II body, 15, a spring II, 16, a self-extrusion magnetic control block II, 17, a coil I, 18, a coil II, 19, a coil III, 20, a coil IV, 21, a fixing bolt, 22, a clamping groove component, 23, a storage cavity II, 24, an electric heating wire, 25 and a pushing component, 26, a dredging plate, 27, a skim-dispersion type supporting piece, 28, a second hydraulic rod, 29, a pressing piston, 30, bio-plastics, 31, a gas transmission component, 32, a dredging hole, 33, a vent hole, 34, a skim-dispersion type inner supporting piece, 35, a skim-dispersion type outer supporting piece, 36, a skim-dispersion type inner bag-shaped piece, 37, a skim-dispersion type outer bag-shaped piece, 38, a first storage cavity, 39, a sliding groove, 40, a first hydraulic rod, 41, a supporting plate, 42, a moving plate, 43, a telescopic rod, 44, an annular groove, 45, an annular clamping piece, 46, a fixed ring, 47, a fixed annular piece, 48, a fixed clamping piece, 49, an air pump, 50, a fixed air bag, 51, a clamping groove, 52, a first key component, 53, a second key component, 54 and a third key component.

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention; 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.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate orientation or positional relationships based on those shown in the drawings, merely to facilitate description of the invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the invention.

As shown in fig. 1, 2, 3, 5, 6, 7, 8 and 9, the self-extrusion magnetic control transfusion nursing bracket provided by the invention comprises a moving component 1, a self-extrusion magnetic control storage component 2, a fixed component 3, a bracket 4 and a skimming type supporting component 5, wherein the skimming type supporting component 5 is arranged at the lower end of the bracket 4, the fixed component 3 is arranged on the bracket 4, the moving component 1 is arranged at the upper end of the fixed component 3, and the self-extrusion magnetic control storage component 2 is arranged on the moving component 1; the self-extrusion magnetic control storage component 2 comprises a self-extrusion magnetic control storage component I6, a self-extrusion magnetic control storage component II 7 and an infusion bag heat preservation component 8, wherein the self-extrusion magnetic control storage component I6 and the self-extrusion magnetic control storage component II 7 are movably arranged on the moving component 1, the moving component 1 supports and fixes the self-extrusion magnetic control storage component I6 and the self-extrusion magnetic control storage component II 7, the self-extrusion magnetic control storage component I6 and the self-extrusion magnetic control storage component II 7 are mutually connected through magnetism, the infusion bag heat preservation component 8 is movably arranged between the self-extrusion magnetic control storage component I6 and the self-extrusion magnetic control storage component II 7, when the infusion bag is cold, liquid in the infusion bag is cold, direct infusion is easy to cause discomfort of a patient, the infusion bag heat preservation part 8 can heat liquid in the infusion bag, the self-extrusion magnetic control storage part I6 comprises a clamping part I9, a self-extrusion magnetic control storage part I body 10, a spring I11 and a self-extrusion magnetic control block I12, the clamping part I9 is arranged at the upper end of the self-extrusion magnetic control storage part I body 10, one end of the spring I11 is connected with the inner side wall of the self-extrusion magnetic control storage part I6, the self-extrusion magnetic control block I12 is connected with the other end of the spring I11, the self-extrusion magnetic control block I12 is arranged on the inner side wall of the self-extrusion magnetic control storage part I6, the self-extrusion magnetic control block I12 is provided with a plurality of groups, and the adjacent self-extrusion magnetic control blocks I12 of the plurality of groups are connected through magnetism; the self-extrusion magnetic control storage part II 7 comprises a clamping part II 13, a self-extrusion magnetic control storage part II body 14, a spring II 15 and a self-extrusion magnetic control block II 16, wherein the clamping part II 13 is arranged at the upper end of the self-extrusion magnetic control storage part II body 14, one end of the spring II 15 is connected with the inner side wall of the self-extrusion magnetic control storage part II 7, the self-extrusion magnetic control block II 16 is connected with the other end of the spring II 15, the self-extrusion magnetic control block II 16 is arranged on the inner side wall of the self-extrusion magnetic control storage part II 7, a plurality of groups of self-extrusion magnetic control blocks II 16 are arranged, and the adjacent self-extrusion magnetic control blocks II 16 of the groups are connected through magnetism; the first 9 and the second 13 clamping members are respectively provided with a first coil 17, when the first 9 and the second 13 clamping members are needed to be fixed, the first 17 internal coils are respectively connected with different currents, the generated magnetic fields are different in magnetism, the mutual attraction is realized, the upper ends of the first 10 and the second 14 self-extrusion magnetic control storage members are respectively provided with a second coil 18, when the first 10 and the second 14 self-extrusion magnetic control storage members are needed to be fixed with infusion bags, the second 18 internal coils are respectively connected with different currents, the generated magnetic fields are different in magnetism, the mutual attraction is realized, the first 12 and the second 16 self-extrusion magnetic control members are respectively provided with a third 19 and a fourth 20 coil, the coil IV 20 is respectively arranged on the adjacent side walls of the two groups of self-extrusion magnetic control blocks I12 and the adjacent side walls of the two groups of self-extrusion magnetic control blocks II 16, the coil IV 20 on the adjacent side walls of the two groups of self-extrusion magnetic control blocks I12 are mutually attracted, the coils IV 20 on the adjacent side walls of the two groups of self-extrusion magnetic control blocks II 16 are mutually attracted and are integrated into a whole, the coil III 19 is respectively arranged in the self-extrusion magnetic control blocks I12 and the self-extrusion magnetic control blocks II 16, the self-extrusion magnetic control blocks I12 and the self-extrusion magnetic control blocks II 16 are oppositely arranged, and when the coils III 19 in the specific self-extrusion magnetic control blocks I12 and the self-extrusion magnetic control blocks II 16 are mutually attracted, the mutually attracted self-extrusion magnetic control blocks I12 and the mutually attracted self-extrusion magnetic control blocks II 16 can be adsorbed; when the infusion bag is needed to be stored, the first coil 17 and the second coil 18 are powered off, after the first self-extrusion magnetic control storage piece 6 and the second self-extrusion magnetic control storage piece 7 are separated, the first self-extrusion magnetic control storage piece 6 and the second self-extrusion magnetic control storage piece 7 slide along the moving assembly 1 respectively, the infusion bag is arranged in the first self-extrusion magnetic control storage piece 6 and the second self-extrusion magnetic control storage piece 7, the first clamping piece 9 and the second clamping piece 13 need to be fixed, the first coil 17 in the infusion bag is respectively connected with different currents, the generated magnetic fields are different in magnetism, mutual attraction is realized, the first self-extrusion magnetic control storage piece body 10 and the second self-extrusion magnetic control storage piece body 14 need to fix the infusion bag, the second coil 18 in the infusion bag is respectively connected with different currents, the generated magnetic fields are different in magnetism, mutual attraction is realized, when liquid in the infusion bag is required to be mixed, the coil IV 20 is not electrified, the coil III 19 in the corresponding self-extrusion magnetic control block I12 and the self-extrusion magnetic control block II 16 are respectively attracted to each other after being electrified, the corresponding self-extrusion magnetic control block I12 and the self-extrusion magnetic control block II 16 are adsorbed, the spring I11 and the spring II 15 are stretched, the self-extrusion magnetic control block I12 and the self-extrusion magnetic control block II 16 which are attracted to each other are in power-off in the coil III 19 after the infusion bag is extruded, the self-extrusion magnetic control block I12 and the self-extrusion magnetic control block II 16 are restored to the initial positions under the driving of the spring I11 and the spring II 15, and the self-extrusion magnetic control block I12 and the self-extrusion magnetic control block II 16 in different positions respectively extrude the infusion bag, so that the circulation mixing of the internal liquid is realized; when the transfusion is required to be quickened, after the coil four 20 is electrified, the self-extrusion magnetic control block one 12 and the self-extrusion magnetic control block two 16 which are adjacent to each other form a whole, then the coil three 19 is respectively electrified with different currents, the self-extrusion magnetic control block one 12 which is formed into a whole and the self-extrusion magnetic control block two 16 which is formed into a whole are attracted to each other, the transfusion bag is extruded, and the liquid in the transfusion bag is quickened to circulate; the self-extrusion magnetic control storage part two bodies 14 are provided with fixing bolts 21, the self-extrusion magnetic control storage part one body 10 is internally provided with clamping groove parts 22, the fixing bolts 21 are matched with the clamping groove parts 22, the infusion bag is arranged on the fixing bolts 21, and when the self-extrusion magnetic control storage part two bodies 14 and the self-extrusion magnetic control storage part one body 10 are connected with each other, the fixing bolts 21 for fixing the infusion bag are inserted into the clamping groove parts 22.

As shown in fig. 2, 3, 4, 10 and 11, a second storage cavity 23 is arranged in the bracket 4, an electric heating wire 24 is arranged in the side wall of the second storage cavity 23, the skimming support assembly 5 comprises a pushing assembly 25, a dredging plate 26 and a skimming support 27, the pushing assembly 25 is arranged in the second storage cavity 23, the dredging plate 26 is arranged in the second storage cavity 23, the pushing assembly 25 is arranged at the upper end of the dredging plate 26, one end of the skimming support 27 is connected with the dredging plate 26, and the other end of the skimming support 27 penetrates through the bracket 4; the pushing component 25 comprises a second hydraulic rod 28 and a pressing piston 29, the fixed end of the second hydraulic rod 28 is arranged on the upper wall in the second storage cavity 23, the pressing piston 29 is movably arranged in the second storage cavity 23, the pressing piston 29 is connected with the movable end of the second hydraulic rod 28, the second hydraulic rod 28 is used for pushing the pressing piston 29 to be arranged along the second storage cavity 23, the pressing piston 29 is sealed with the second storage cavity 23, the second storage cavity 23 is internally provided with a bio-plastic 30, the edible bio-plastic 30 is made of a FORMcard, the FORMcard is made of organic plastic, the heated bio-plastic becomes soft and tough, the plastic 30 can be kneaded into rubber mud, the standing horse becomes hard after cooling, the plastic is repeatedly used without wearing and breaking or deforming, the bio-plastic 30 is arranged between the pressing piston 29 and the second storage cavity 23, when the electric heating wire 24 is used for heating, the bio-plastic 30 in the second storage cavity 23 becomes soft, and the softened bio-plastic 30 is extruded into the skimming support 27 when the pressing piston 29 moves downwards; the side wall of the storage cavity II 23 is internally provided with a gas transmission component 31, the dredging plate 26 is internally provided with a dredging hole 32 and a vent hole 33, the dredging hole 32 penetrates through the dredging plate 26, the dredging hole 32 is connected with the biological plastic 30, the vent hole 33 is arranged in the dredging plate 26 and penetrates through the bottom wall of the dredging plate 26, the gas transmission component 31 is connected with the vent hole 33, the skimming type support 27 comprises a skimming type inner support 34, a skimming type outer support 35, a skimming type inner bag 36 and a skimming type outer bag 37, the upper end of the skimming type outer support 35 is in through connection with the vent hole 33, the skimming type inner support 34 is arranged in the skimming type outer support 35, the upper end of the skimming type inner support 34 is in through connection with the dredging hole 32, the skimming type inner support 34 and the skimming type outer support 35 are arranged in a sleeved mode, an air circulation channel is arranged between the skimming type inner support 34 and the skimming type outer support 35, the skimming inner support 34 and the skimming outer support 35 are made of hard materials, the lower end of the skimming inner support 34 and the lower end of the skimming outer support 35 penetrate through the side wall of the bracket 4, the skimming inner bag 36 is arranged in the skimming outer bag 37, the upper end of the skimming inner bag 36 is connected with the lower end of the skimming inner support 34, the upper end of the skimming outer bag 37 is connected with the lower end of the skimming outer support 35, the skimming outer bag 37 is provided with an exhaust hole, the skimming inner bag 36 and the skimming outer bag 37 are arranged in a sleeved mode, an air circulation channel is arranged between the skimming inner bag 36 and the skimming outer bag 37, the skimming inner bag 36 and the skimming outer bag 37 are arranged by adopting flexible materials, the materials are arranged like circles, can be unfolded in a specific shape after being inflated; when the support 4 is required to be supported and fixed, the skimming type support 27 extends out of the support 4, the electric heating wire 24 works to heat the biological plastics 30, the air conveying component 31 works to convey air to the air circulation channel between the skimming type inner support 36 and the skimming type outer support 37 through the air holes 33, the skimming type inner support 34 and the skimming type outer support 35, the skimming type inner support 36 and the skimming type outer support 37 are unfolded in a specific shape under the action of air pressure, the unfolded skimming type inner support 36 and the skimming type outer support 37 extend out of the support 4 and are arranged on the ground, then the hydraulic rod II 28 works to push the push-down piston 29 to move along the storage cavity II 23, the softened biological plastics 30 are extruded into the opened skimming type inner support 34 and the skimming type inner support 36 through the air holes 32 when the push-down piston 29 moves down, the skimming type outer support 37 is opened under the action of air pressure, the skimming type inner support 36 and the skimming type outer support 37 extend out of the support 4, and the air conveying component 31 is cooled to cool the biological plastics; the support 4 is internally provided with a first storage cavity 38, the support 4 is provided with a sliding groove 39, the sliding groove 39 is in through connection with the first storage cavity 38, the moving assembly 1 comprises a first hydraulic rod 40, a support plate 41, a moving plate 42 and a telescopic rod 43, the fixed end of the first hydraulic rod 40 is arranged on the upper wall in the first storage cavity 38, the support plate 41 is arranged on the inner side wall of the first storage cavity 38, the movable end of the first hydraulic rod 40 penetrates through the support plate 41, one end of the telescopic rod 43 is connected with the support plate 41, the moving plate 42 penetrates through the sliding groove 39, the center of the moving plate 42 is arranged in the first storage cavity 38, the periphery of the moving plate 42 is arranged outside the support 4, the moving plate 42 is connected with the other end of the telescopic rod 43 and the movable end of the first hydraulic rod 40, and the self-extrusion magnetic control storage assembly 2 is arranged on the moving plate 42; the first hydraulic rod 40 works to push the movable plate 42 to slide along the sliding groove 39, and the movable plate 42 changes the height on the support 4, so that nursing staff with different heights can use the movable plate conveniently.

As shown in fig. 1, 2 and 3, a controller is arranged in the bracket 4, a first key component 52, a second key component 53 and a third key component 54 are arranged on the bracket 4, the first key component 52, the second key component 53 and the third key component 54 are electrically connected with the controller, and the controller is electrically connected with the first hydraulic rod 40, the second hydraulic rod 28, the air pump 49, the electric heating wire 24 and the air transmission component 31; the first key assembly 52 controls the working states of the first hydraulic rod 40 and the second hydraulic rod 28, the second key assembly 53 controls the working states of the electric heating wire 24 and the gas transmission assembly 31, and the third key assembly 54 controls the working states of the coils; an annular groove 44 is formed in the moving plate 42, an annular clamping piece 45 is arranged in the annular groove 44, the annular clamping piece 45 is movably arranged in the annular groove 44, a fixed ring 46 is arranged on the bottom wall of the annular clamping piece 45, the fixed ring 46 penetrates through the clamping piece I9 and the clamping piece II 13, and the clamping piece I9 and the clamping piece II 13 can move along the fixed ring 46; the fixing assembly 3 comprises a fixing annular piece 47, a fixing clamping piece 48, an air pump 49 and a fixing air bag 50, wherein the fixing annular piece 47 is arranged on the support 4, the fixing clamping piece 48 is connected with the fixing annular piece 46 in a shape, a clamping groove 51 is formed in the fixing clamping piece 48, the fixing air bag 50 is arranged in the clamping groove 51, the air pump 49 is arranged in the support 4, the air pump 49 is connected with the fixing air bag 50, when the support 4 needs to be fixed, the support 4 is clamped on a support rod at the bedside, the support rod is clamped in the clamping groove 51, the air pump 49 works to convey air into the fixing air bag 50, and the support rod is clamped and fixed after the fixing air bag 50 bulges.

The specific use is as follows:

the first clamping piece 9 and the second clamping piece 13 move along the fixed ring 46, the first self-extrusion magnetic control storage piece 6 and the second self-extrusion magnetic control storage piece 7 are separated, liquid in the infusion bag is cold in cold, discomfort of a patient is easily caused by direct infusion, when the infusion bag heat preservation piece 8 is needed to heat the liquid in the infusion bag, the infusion bag heat preservation piece 8 is heated and then opened, one end of the infusion bag heat preservation piece is arranged on the fixed bolt 21, then the infusion bag is arranged on the fixed bolt 21, the other end of the infusion bag heat preservation piece 8 is arranged on the fixed bolt 21, and the infusion bag is arranged in the infusion bag heat preservation piece 8; when the infusion bag heat preservation piece 8 is not needed, the infusion bag is arranged on the fixed bolt 21;

the first clamping piece 9 and the second clamping piece 13 are fixed, different currents are respectively conducted to the coils 17 in the first clamping piece and the second clamping piece, the generated magnetic fields are different, mutual attraction is achieved, after the first self-extrusion magnetic control storage piece body 10 and the second self-extrusion magnetic control storage piece body 14 are used for extruding infusion bags, the coils 18 in the second self-extrusion magnetic control storage piece body are respectively conducted to different currents, the generated magnetic fields are different, mutual attraction is achieved, when liquid in the infusion bags is required to be mixed, the coils 20 are not conducted, the corresponding self-extrusion magnetic control block 12 and the corresponding self-extrusion magnetic control block 16 are conducted after the coils 19 in the first self-extrusion magnetic control block 12 and the corresponding self-extrusion magnetic control block 16 are conducted, the corresponding self-extrusion magnetic control block 12 and the corresponding self-extrusion magnetic control block 16 are attracted, the first spring 11 and the second spring 15 are stretched, after the infusion bags are extruded by the self-extrusion magnetic control block 12 and the self-extrusion magnetic control block 16, the self-extrusion magnetic control block 12 and the self-extrusion magnetic control block 16 are conducted to be conducted to the initial positions under the driving of the first spring 11 and the second spring 15, and the self-extrusion magnetic control block 16 are restored to the initial positions, and the liquid in the infusion bags are mixed; when the transfusion is required to be quickened, after the coil four 20 is electrified, the self-extrusion magnetic control block one 12 and the self-extrusion magnetic control block two 16 which are adjacent to each other form a whole, then the coil three 19 is respectively electrified with different currents, the self-extrusion magnetic control block one 12 which is formed into a whole and the self-extrusion magnetic control block two 16 which is formed into a whole are attracted to each other, the transfusion bag is extruded, and the liquid in the transfusion bag is quickened to circulate;

the first hydraulic rod 40 works to push the movable plate 42 to slide along the sliding groove 39, and the movable plate 42 changes the height on the bracket 4, so that nursing staff with different heights can use the movable plate conveniently;

when a supporting rod is arranged on a sickbed and the supporting rod 4 needs to be fixed, the supporting rod 4 is clamped on the supporting rod at the bedside, the supporting rod is clamped in the clamping groove 51, the air pump 49 works to convey air into the fixed air bag 50, and the fixed air bag 50 clamps and fixes the supporting rod after being swelled; when the movement is needed, the gas in the fixed air bag 50 is exhausted, and the support rod is removed;

when the support rod is not arranged on a sickbed and the support 4 needs to be fixed, the skimming type support member 27 extends out of the support 4 to be arranged, the electric heating wire 24 works to heat the biological plastics 30, the air conveying component 31 works to convey air to the air circulation channel between the skimming type inner support member 36 and the skimming type outer support member 37 through the air holes 33, the skimming type inner support member 34 and the skimming type outer support member 35, the skimming type inner support member 36 and the skimming type outer support member 37 are unfolded in a specific shape under the action of air pressure, the unfolded skimming type inner support member 36 and the skimming type outer support member 37 extend out of the support 4 to be arranged on the ground, then the hydraulic rod II 28 works to push the push-down piston 29 to move downwards along the storage cavity II 23, the softened biological plastics 30 are extruded into the opened skimming type inner support member 34 and the skimming type inner support member 36 through the air holes 32 when the push-down piston 29 moves downwards, the skimming type inner support member 37 is opened under the action of air pressure, and the air conveying component 30 is cooled by the air conveying component to cool the biological plastics; when the bio-plastic 30 is required to be recovered, the electric heating wire 24 works to heat the bio-plastic 30, the exhaust hole on the skimming outer bag-shaped member 37 is opened, meanwhile, the air transmission assembly 31 transmits hot air to the channel so as to heat and soften the bio-plastic 30, the skimming outer bag-shaped member 37 is extruded by external force, then the second hydraulic rod 28 works to drive the pressing piston 29 to move upwards along the second storage cavity 23, the softened bio-plastic 30 is extracted into the second storage cavity 23 through the through hole 32 when the pressing piston 29 moves upwards, and the air transmission assembly 31 and the electric heating wire 24 stop working.

The above is a specific workflow of the present invention, and the next time the present invention is used, the process is repeated.

It is noted that relational terms such as first and second, and the like are 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. Moreover, 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 understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The invention and its embodiments have been described above with no limitation, and the actual construction is not limited to the embodiments of the invention as shown in the drawings. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the present invention.

Claims

1. Self-extrusion magnetic control type transfusion nursing support convenient to use, its characterized in that: the self-extrusion magnetic control storage device comprises a moving assembly, a self-extrusion magnetic control storage assembly, a fixed assembly, a bracket and a skimming type supporting assembly, wherein the skimming type supporting assembly is arranged at the lower end of the bracket, the fixed assembly is arranged on the bracket, the moving assembly is arranged at the upper end of the fixed assembly, and the self-extrusion magnetic control storage assembly is arranged on the moving assembly; the self-extrusion magnetic control storage assembly comprises a self-extrusion magnetic control storage part I, a self-extrusion magnetic control storage part II and an infusion bag heat preservation part, wherein the self-extrusion magnetic control storage part I and the self-extrusion magnetic control storage part II are movably arranged on the moving assembly, the self-extrusion magnetic control storage part I and the self-extrusion magnetic control storage part II are connected with each other through magnetism, the infusion bag heat preservation part is movably arranged between the self-extrusion magnetic control storage part I and the self-extrusion magnetic control storage part II, the self-extrusion magnetic control storage part I comprises a clamping part I, a self-extrusion magnetic control storage part body, a spring I and a self-extrusion magnetic control block I, the clamping part I is arranged at the upper end of the self-extrusion magnetic control storage part body, one end of the spring I is connected with the inner side wall of the self-extrusion magnetic control storage part I, the self-extrusion magnetic control block I is connected with the other end of the spring I, the self-extrusion magnetic control block I is arranged on the inner side wall of the self-extrusion magnetic control storage part I, and the self-extrusion magnetic control block I is provided with a plurality of groups;

the self-extrusion magnetic control storage part II comprises a clamping part II, a self-extrusion magnetic control storage part II body, a spring II and a self-extrusion magnetic control block II, wherein the clamping part II is arranged at the upper end of the self-extrusion magnetic control storage part II body, one end of the spring II is connected with the inner side wall of the self-extrusion magnetic control storage part II, the self-extrusion magnetic control block II is connected with the other end of the spring II, the self-extrusion magnetic control block II is arranged on the inner side wall of the self-extrusion magnetic control storage part II, and a plurality of groups of self-extrusion magnetic control blocks II are arranged;

the first clamping piece and the second clamping piece are respectively provided with a first coil, the upper ends of the first self-extrusion magnetic control storage piece and the second self-extrusion magnetic control storage piece are respectively provided with a second coil, the first self-extrusion magnetic control block and the second self-extrusion magnetic control block are respectively provided with a third coil and a fourth coil, the fourth coil is respectively arranged on the adjacent side wall of the first two groups of self-extrusion magnetic control blocks and the adjacent side wall of the second two groups of self-extrusion magnetic control blocks, and the third coil is respectively arranged in the first self-extrusion magnetic control block and the second self-extrusion magnetic control block;

the self-extrusion magnetic control storage part II is provided with a fixing bolt, the self-extrusion magnetic control storage part I is internally provided with a clamping groove part, and the fixing bolt is matched with the clamping groove part;

the device comprises a bracket, a first storage cavity, a second storage cavity, an electric heating wire, a skimming support component, a first dredging plate, a second dredging plate, a third dredging plate, a fourth dredging plate, a third dredging plate and a third cooling plate, wherein the second storage cavity is arranged in the bracket; the pushing assembly comprises a second hydraulic rod and a pressing piston, the fixed end of the second hydraulic rod is arranged on the upper wall in the second storage cavity, the pressing piston is movably arranged in the second storage cavity, the pressing piston is connected with the movable end of the second hydraulic rod, and the second storage cavity is internally provided with bio-plastics;

the storage cavity is characterized in that a gas transmission component is arranged in the side wall of the storage cavity II, a dredging hole and a vent hole are formed in the dredging plate, the dredging hole is formed in the dredging plate and penetrates through the bottom wall of the dredging plate, the gas transmission component is connected with the vent hole, the dispersion type support comprises a dispersion type inner support piece, a dispersion type outer support piece, a dispersion type inner support piece and a dispersion type outer support piece, the upper end of the dispersion type outer support piece is in through connection with the vent hole, the dispersion type inner support piece is arranged in the dispersion type outer support piece, the upper end of the dispersion type inner support piece is in through connection with the dredging hole, the lower end of the dispersion type inner support piece and the lower end of the dispersion type outer support piece are arranged in the side wall of the support, the dispersion type inner support piece is arranged in the dispersion type outer support piece, the upper end of the dispersion type inner support piece is connected with the lower end of the dispersion type inner support piece, and the upper end of the dispersion type inner support piece is connected with the lower end of the dispersion type inner support piece.

2. The self-extruding magnetic control type transfusion nursing bracket convenient to use as claimed in claim 1, wherein: the movable support is characterized in that a first storage cavity is formed in the support, a sliding groove is formed in the support and is connected with the storage cavity in a penetrating mode, the movable assembly comprises a first hydraulic rod, a supporting plate, a movable plate and a telescopic rod, the fixed end of the first hydraulic rod is arranged on the inner upper wall of the first storage cavity, the supporting plate is arranged on the inner side wall of the first storage cavity, the movable end of the first hydraulic rod penetrates through the supporting plate, one end of the telescopic rod is connected with the supporting plate, the movable plate penetrates through the sliding groove, the center of the movable plate is arranged in the first storage cavity, the periphery of the movable plate is arranged outside the support, the movable plate is connected with the other end of the telescopic rod and the movable end of the first hydraulic rod, and the self-extrusion magnetic control storage assembly is arranged on the movable plate.

3. The self-extruding magnetic control type transfusion nursing bracket convenient to use as claimed in claim 2, wherein: the movable plate is internally provided with an annular groove, an annular clamping piece is arranged in the annular groove, the annular clamping piece is movably arranged in the annular groove, the bottom wall of the annular clamping piece is provided with a fixing ring, and the fixing ring penetrates through the first clamping piece and the second clamping piece.

4. A self-extruding magnetic control transfusion nursing bracket convenient to use as claimed in claim 3, wherein: the fixing assembly comprises a fixing annular piece, a fixing clamping piece, an air pump and a fixing air bag, wherein the fixing annular piece is arranged on the support, the fixing clamping piece is connected with the fixing annular piece, a clamping groove is formed in the fixing clamping piece, the fixing air bag is arranged in the clamping groove, the air pump is arranged in the support, and the air pump is connected with the fixing air bag.

5. The easy-to-use self-extruding magnetically controlled infusion care support according to claim 4, wherein: the novel hydraulic pressure control device is characterized in that a controller is arranged in the support, a first key component, a second key component and a third key component are arranged on the support, the first key component, the second key component and the third key component are electrically connected with the controller, and the controller is electrically connected with the first hydraulic rod, the second hydraulic rod, the air pump, the electric heating wire and the air transmission component.