CN112021830A - Intelligence vein fluid infusion bag storing compartment - Google Patents

Abstract

The invention discloses an intelligent intravenous fluid infusion bag storage cabinet which comprises a cabinet body, a circulating conveying mechanism, a driving mechanism and an intravenous fluid infusion bag storage mechanism, wherein a cabinet door is hinged to the front part of the cabinet body, a through groove is formed in the cabinet door, a cover plate is hinged to the inside of the through groove, and a handle is fixedly installed on the outer side surface of the cover plate; the circulating conveying mechanism is arranged in the cabinet body and is vertically arranged; the driving mechanism is arranged in the cabinet body and is in transmission connection with the circulating conveying mechanism; the venous fluid infusion bag storage mechanisms are provided with a plurality of groups, the groups of venous fluid infusion bag storage mechanisms are fixedly arranged on the circulating conveying mechanism, and the groups of venous fluid infusion bag storage mechanisms are arranged at equal intervals. According to the invention, the intravenous fluid infusion bag can be taken according to the date and time of the intravenous fluid infusion bag, the expiration of intravenous fluid infusion in the intravenous fluid infusion bag with long time can be effectively avoided, and great convenience is brought to the daily work of medical staff.

Description

Intelligence vein fluid infusion bag storing compartment

Technical Field

The invention relates to the technical field of medical instruments, in particular to an intelligent intravenous fluid infusion bag storage cabinet.

Background

Intravenous fluid replacement is primarily suitable for dehydrated patients or fasting patients. The basic principle mainly comprises the following aspects: 1. liquid supplement amount-2000 ml of liquid is required by normal organisms every day, and 500 ml of liquid needs to be supplemented every day when heat is generated; 2. in the fluid infusion, 4.5 g of sodium chloride is needed physiologically every day, 3 g of potassium is needed daily, potassium must be supplemented when potassium is supplemented, 'urine is needed for supplementing potassium', the fluid infusion speed is generally 60 drops per minute, the dropping speed of an old patient with poor heart and lung functions needs to be strictly controlled, and the dropping speed is not more than 250ml per hour, so that acute pulmonary edema caused by rapid infusion is avoided; 3. calcium ions and magnesium ions and trace elements are needed to be infused when the food is taken for more than 3 days; 4. for patients with diabetes, insulin needs to be administered at 1:3 when infusing glucose.

The IV fluid is typically contained in an IV fluid bag, which is then placed in a storage cabinet for use. However, if the existing storage cabinet is manufactured according to the method of using the intravenous fluid infusion bag at the near time and using the remote time, the intravenous fluid infusion bag can be taken and used according to the date and time only by manually moving and placing the storage cabinet, so that a lot of labor force can be consumed, great inconvenience is brought to the daily work of medical staff, and therefore the intelligent intravenous fluid infusion bag storage cabinet is provided.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an intelligent intravenous fluid infusion bag storage cabinet, which can realize that an intravenous fluid infusion bag is taken according to the date and time of the intravenous fluid infusion bag, can effectively avoid the expiration of intravenous fluid infusion in the intravenous fluid infusion bag with long time, brings great convenience for the daily work of medical staff and solves the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

an intelligent intravenous fluid bag storage cabinet, comprising:

the refrigerator comprises a cabinet body, wherein a cabinet door is hinged to the front part of the cabinet body, a through groove is formed in the cabinet door, a cover plate is hinged to the inside of the through groove, and a handle is fixedly mounted on the outer side surface of the cover plate;

the circulating conveying mechanism is arranged inside the cabinet body and is vertically arranged;

the driving mechanism is arranged inside the cabinet body and is in transmission connection with the circulating conveying mechanism;

the intravenous fluid infusion bag storage mechanism is provided with a plurality of groups, the intravenous fluid infusion bag storage mechanisms are fixedly arranged on the circulating conveying mechanism, and the intravenous fluid infusion bag storage mechanisms are arranged at equal intervals.

By adopting the technical scheme, the cabinet body and the cabinet door form the main body structure of the storage cabinet, the cover plate is matched with the through groove to be used as a channel for taking the intravenous fluid infusion bags stored on the intravenous fluid infusion bag storage mechanism, and the cover plate is convenient to open and close through the handle; the intravenous fluid infusion bag storage mechanism is used for storing intravenous fluid infusion bags, the driving mechanism is used for driving the circulating conveying mechanism to rotate circularly, and the circulating conveying mechanism is used for driving the intravenous fluid infusion bag storage mechanism to rotate circularly, so that a plurality of intravenous fluid infusion bags can be stored safely.

Further, circulation conveying mechanism includes two back shafts, two the back shaft all installs through the bearing frame level and rotationally the inside of the cabinet body, and two parallel arrangement about the back shaft, every all fixed cover is equipped with two sprockets on the back shaft, lies in two from top to bottom with one side the sprocket all is connected through a drive chain drive, two the equal vertical setting of drive chain, and two the interval has between the drive chain.

Through adopting above-mentioned technical scheme, the circulation conveying mechanism who sets up mainly comprises two back shafts, four bearing frames, four sprockets and two driving chains for two driving chains can carry out the circular rotation motion along the sprocket of arranging from top to bottom.

Further, actuating mechanism includes crossbeam, gear motor, drive pulley and driven pulley, the crossbeam level is just installed fixedly the inside of the cabinet body, gear motor passes through motor cabinet fixed mounting and is in on the crossbeam, drive pulley fixed mounting is in gear motor's output shaft end portion, driven pulley fixed mounting is in one of them on the back shaft, just driven pulley pass through the belt with the drive pulley transmission is connected.

Through adopting above-mentioned technical scheme, the actuating mechanism who sets up mainly has crossbeam, gear motor, drive pulley and driven pulley to constitute, and usable gear motor drives drive pulley rotatory, and drive pulley passes through the belt and drives driven pulley, and driven pulley drives one of them back shaft and rotates, and the back shaft drives the sprocket and rotates and then drive two driving chain circulative rotation motion.

Further, every group vein fluid infusion bag deposits mechanism all includes two connecting rods, slide bar, two sliding sleeves, two Y shape links and case, two the connecting rod is fixed mounting respectively two on the side that the driving chain is close to each other, and two the connecting rod symmetry sets up, the slide bar level just is installed fixedly two between the connecting rod, two the sliding sleeve all rotates the suit and is in on the slide bar, and two the sliding sleeve symmetry sets up, two Y shape link fixed mounting is two respectively the bottom of sliding sleeve, case fixed mounting is two between the Y shape link.

Through adopting above-mentioned technical scheme, every group vein fluid infusion bag of setting deposits the mechanism and all constitutes by two connecting rods, the slide bar, two sliding sleeves, two Y shape link and case, the case is used for placing vein fluid infusion bag, at two connecting rods, the slide bar, two sliding sleeves, make the case can keep the horizontality always under mutually supporting of two Y shape links, like this at the case along with the bad phenomenon that two driving chain circulation rotary motion's in-process also can not take place to overturn, consequently, the inside vein fluid infusion bag of depositing of case can not drop.

Further, still include lighting mechanism, lighting mechanism includes two lamp stands and fluorescent tube, two the lamp stand is all fixed mounting in the interior roof bottom of the cabinet body, the fluorescent tube spiro union is in two between the lamp stand.

Through adopting above-mentioned technical scheme, the lighting mechanism who sets up comprises two lamp stands and fluorescent tube, and usable fluorescent tube is lighted for the inside of the cabinet body and is made things convenient for medical personnel to get and put vein fluid infusion bag, and the fluorescent tube adopts the mode of spiro union to make the fluorescent tube be convenient for the later stage change maintenance simultaneously.

Furthermore, a travel switch is fixedly mounted on an inner side wall of the cabinet body, the travel switch is matched with the cabinet door, and the travel switch is connected with the lamp tube in series.

Through adopting above-mentioned technical scheme, travel switch is used for cooperateing with the cabinet door, and travel switch switches on the fluorescent tube circular telegram and gives out light for the inside of the cabinet body this moment and throw in vein fluid infusion bag to the inside of case convenient to medical personnel when the cabinet door is opened.

Further, still be equipped with photoelectric sensor through bracing piece fixed mounting on the inside wall of the cabinet body, photoelectric sensor's position with the position of leading to the groove cooperatees and sets up, just photoelectric sensor is used for detecting the connecting rod, the inside of the cabinet body is fixed mounting still has the controller, the signal input part of controller pass through the signal line with photoelectric sensor's signal output part electric connection, just the control output part of controller pass through the control line respectively with gear motor's automatically controlled end with the automatically controlled end electric connection of fluorescent tube.

Through adopting above-mentioned technical scheme, photoelectric sensor is used for detecting the connecting rod, and when the connecting rod moved photoelectric sensor's position, gear motor would the shut down, had a case just to leading to the groove this moment, opened the apron like this and can take and place the intravenous fluid infusion bag in case inside.

Further, close on the medial surface of cabinet door the position department of leading to the groove still fixed mounting have proximity sensor and electro-magnet, proximity sensor's signal output part passing signal line with the signal input part electric connection of controller, the automatically controlled end of electro-magnet pass through the control line with the control output part electric connection of controller, on the medial surface of apron still fixed mounting with electro-magnet matched with stainless steel adsorbs the piece, still fixed mounting electro-magnet unblock button on the lateral surface of cabinet door, electro-magnet unblock button passing signal line with the signal input part electric connection of controller.

By adopting the technical scheme, the proximity sensor is used for detecting the position of the cover plate, when the cover plate is far away from the proximity sensor, the cover plate is opened, the proximity sensor generates an electric signal and uploads the electric signal to the controller, the controller controls the lamp tube to be opened to illuminate the inside of the cabinet body, thereby being convenient for medical personnel to take the intravenous fluid infusion bag placed in the storage box, before the cover plate is opened by the handle, the electromagnet unlocking button is pressed, at the moment, the controller controls the electromagnet to be powered off, the cover plate can be opened, when the cover plate is closed again and the proximity sensor senses the cover plate again, the proximity sensor generates an electric signal again and uploads the electric signal to the controller, the controller controls the electromagnet to be electrified to tightly suck and lock the stainless steel adsorption block, thereby lock the apron, can prevent that the apron from opening by oneself and leading to the cabinet body is inside to fall into the dust, can avoid the inside vein fluid infusion bag of case to be polluted by the dust.

Furthermore, a handle lock is fixedly installed on the cabinet door, and the handle lock is arranged close to one side, far away from the travel switch, of the cabinet door.

Through adopting above-mentioned technical scheme, usable handle lock with the cabinet door locking on the cabinet body, can avoid the cabinet door to open by oneself and lead to the internal portion of cabinet to fall into the dust, can avoid the inside vein fluid infusion bag of case to be polluted by the dust.

Furthermore, the bottom of the cabinet body is also fixedly provided with four universal wheels, four the universal wheels are symmetrically arranged and four the universal wheels are self-locking universal wheels.

Through adopting above-mentioned technical scheme for this cabinet body can conveniently remove with the help of four universal wheels, thereby makes this storing compartment more laborsaving convenience when moving the position.

In summary, the invention mainly has the following beneficial effects:

according to the invention, the cabinet door can be opened through the handle lock, the intravenous fluid infusion bags are sequentially put into the storage box from bottom to top according to the date and time, then the position of the storage box is adjusted to enable the storage box with the intravenous fluid infusion bag with the farthest date to be aligned to the cover plate, then the cabinet door is closed, when the intravenous fluid infusion bag is taken next time, the electromagnet unlocking button is pressed down before the cover plate is opened through a handle, at the moment, the controller controls the electromagnet to be powered off, the cover plate can be opened, then the intravenous fluid infusion bag in the storage box at the position corresponding to the through groove is taken out, the cover plate is closed at any time after the intravenous fluid infusion bag is taken out, when the proximity sensor senses the cover plate again, the proximity sensor generates an electric signal again and uploads the electric signal to the controller, the controller controls the electromagnet to be powered on to tightly suck and lock the stainless steel adsorption block, so that the cover plate is, when photoelectric sensor detected next connecting rod, controller control gear motor stall, at this moment, the vein fluid infusion bag that date time is the farthest will aim at the apron, conveniently takes next time to this can realize taking according to the date time of vein fluid infusion bag and use vein fluid infusion bag, can effectively avoid the inside vein fluid infusion of vein fluid infusion bag far away in time overdue, brings great facility for medical personnel's daily work.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of an intelligent IV bag storage cabinet;

FIG. 2 is a schematic diagram of another perspective view of an embodiment of a smart IV bag storage case;

FIG. 3 is a schematic structural view of an embodiment of the intelligent IV bag storage cabinet with the cabinet door open;

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

FIG. 5 is a schematic cross-sectional view of an embodiment of an intelligent IV bag storage cabinet;

FIG. 6 is an enlarged schematic view of a portion B of FIG. 5;

FIG. 7 is an enlarged schematic view of a portion C of FIG. 5;

FIG. 8 is a schematic diagram of a partial structure of an embodiment of an intelligent IV bag storage cabinet;

fig. 9 is an enlarged schematic view of a partial view D in fig. 8.

In the figure: 1. a cabinet body; 2. a circulating conveying mechanism; 201. a support shaft; 202. a bearing seat; 203. a sprocket; 204. a drive chain; 3. a drive mechanism; 301. a cross beam; 302. a reduction motor; 303. a motor base; 304. a driven pulley; 305. a drive pulley; 306. a belt; 4. a venous fluid infusion bag storage mechanism; 401. a connecting rod; 402. a slide bar; 403. a Y-shaped connecting frame; 404. a sliding sleeve; 405. a storage box; 5. an illumination mechanism; 501. a lamp socket; 502. a lamp tube; 6. a cabinet door; 7. a through groove; 8. a cover plate; 9. a proximity sensor; 10. an electromagnet; 11. a stainless steel adsorption block; 12. a travel switch; 13. a controller; 14. a handle; 15. an electromagnet unlock button; 16. a universal wheel; 17. a handle lock; 18. a support bar; 19. a photoelectric sensor.

Detailed Description

The present invention is described in further detail below with reference to figures 1-9.

Example 1

An intelligent intravenous fluid infusion bag storage cabinet is shown in figures 1-3 and 5 and comprises a cabinet body 1, a circulating conveying mechanism 2, a driving mechanism 3 and an intravenous fluid infusion bag storage mechanism 4;

as shown in fig. 1-3, a cabinet door 6 is hinged to the front of the cabinet body 1, a through groove 7 is formed in the cabinet door 6, a cover plate 8 is hinged to the inside of the through groove 7, and a handle 14 is fixedly mounted on the outer side surface of the cover plate 8;

as shown in fig. 5, the circulating conveying mechanism 2 is installed inside the cabinet 1, and the circulating conveying mechanism 2 is vertically arranged;

as shown in fig. 5, the driving mechanism 3 is installed inside the cabinet 1, and the driving mechanism 3 is in transmission connection with the circulating conveying mechanism 2;

as shown in fig. 5, the intravenous fluid infusion bag storage mechanisms 4 are provided with a plurality of groups, the intravenous fluid infusion bag storage mechanisms 4 are all fixedly mounted on the circulating conveying mechanism 2, and the intravenous fluid infusion bag storage mechanisms 4 are arranged at equal intervals.

According to the technical scheme, the cabinet body 1 and the cabinet door 6 form a main body structure of the storage cabinet, the cover plate 8 and the through groove 7 are matched to be used as a channel for taking the intravenous fluid infusion bags stored on the intravenous fluid infusion bag storage mechanism 4, and the cover plate 8 is convenient to open and close through the handle 14; the intravenous fluid infusion bag storage mechanism 4 is used for storing intravenous fluid infusion bags, the driving mechanism 3 is used for driving the circulating conveying mechanism 2 to rotate circularly, and the circulating conveying mechanism 2 is used for driving the intravenous fluid infusion bag storage mechanism 4 to rotate circularly, so that a plurality of intravenous fluid infusion bags can be stored safely.

Preferably, as shown in fig. 5 and 8, the circulating conveying mechanism 2 includes two supporting shafts 201, the two supporting shafts 201 are horizontally and rotatably installed inside the cabinet 1 through bearing seats 202, the two supporting shafts 201 are arranged in parallel up and down, each supporting shaft 201 is fixedly sleeved with two chain wheels 203, the upper and lower chain wheels 203 on the same side are in transmission connection through a transmission chain 204, the two transmission chains 204 are vertically arranged, and a space is provided between the two transmission chains 204. The endless conveying mechanism 2 is mainly composed of two support shafts 201, four bearing blocks 202, four chain wheels 203, and two transmission chains 204, so that the two transmission chains 204 can perform endless rotary motion along the chain wheels 203 arranged up and down.

Preferably, as shown in fig. 5, 6 and 8, the driving mechanism 3 includes a cross beam 301, a reduction motor 302, a driving pulley 305 and a driven pulley 304, the cross beam 301 is horizontally and fixedly installed inside the cabinet 1, the reduction motor 302 is fixedly installed on the cross beam 301 through a motor base 303, the driving pulley 305 is fixedly installed at an end portion of an output shaft of the reduction motor 302, the driven pulley 304 is fixedly sleeved on one of the supporting shafts 201, and the driven pulley 304 is in transmission connection with the driving pulley 305 through a belt 306. The driving mechanism 3 that sets up mainly has crossbeam 301, gear motor 302, drive pulley 305 and driven pulley 304 to constitute, and usable gear motor 302 drives drive pulley 305 rotatory, and drive pulley 305 drives driven pulley 304 through belt 306, and driven pulley 304 drives one of them back shaft 201 and rotates, and back shaft 201 drives sprocket 203 and rotates and then drive two drive chain 204 circulative rotation motion.

Preferably, as shown in fig. 5, 8 and 9, each set of the intravenous fluid infusion bag storage mechanism 4 includes two connecting rods 401, two sliding rods 402, two sliding sleeves 404, two Y-shaped connecting frames 403 and a storage box 405, the two connecting rods 401 are respectively and fixedly installed on one side of the two adjacent transmission chains 204, the two connecting rods 401 are symmetrically arranged, the sliding rods 402 are horizontally and fixedly installed between the two connecting rods 401, the two sliding sleeves 404 are respectively and rotatably sleeved on the sliding rods 402, the two sliding sleeves 404 are symmetrically arranged, the two Y-shaped connecting frames 403 are respectively and fixedly installed at the bottoms of the two sliding sleeves 404, and the storage box 405 is fixedly installed between the two Y-shaped connecting frames 403. Every group vein fluid infusion bag of setting deposits mechanism 4 and all comprises two connecting rods 401, the slide bar 402, two sliding sleeves 404, two Y shape link 403 and case 405, case 405 is used for placing vein fluid infusion bag, at two connecting rods 401, the slide bar 402, two sliding sleeves 404, make case 405 can keep the horizontality always under mutually supporting of two Y shape link 403, can not take place the bad phenomenon of upset like this at case 405 along with two driving chain 204 circulative rotation motion's in-process yet, consequently, the inside vein fluid infusion bag of depositing of case 405 can not drop.

Preferably, as shown in fig. 5, the cabinet further comprises an illuminating mechanism 5, wherein the illuminating mechanism 5 comprises two lamp holders 501 and a lamp tube 502, the two lamp holders 501 are fixedly installed at the bottom of the inner top wall of the cabinet 1, and the lamp tube 502 is screwed between the two lamp holders 501. The lighting mechanism 5 that sets up comprises two lamp stands 501 and fluorescent tube 502, and usable fluorescent tube 502 makes things convenient for medical personnel to get and puts the vein fluid infusion bag for the inside of the cabinet body 1 is lighted, and fluorescent tube 502 adopts the spiro union mode to make fluorescent tube 502 be convenient for the later stage change maintenance simultaneously.

Preferably, as shown in fig. 3 and 5, a travel switch 12 is further fixedly mounted on an inner side wall of the cabinet body 1, the travel switch 12 is disposed in cooperation with the cabinet door 6, and the travel switch 12 is connected in series with the lamp 502. Travel switch 12 is used for cooperateing with cabinet door 6, and travel switch 12 switches on when cabinet door 6 is opened and fluorescent tube 502 circular telegram is luminous for the inside of the cabinet body 1 throws light on and makes things convenient for medical personnel to put in vein fluid infusion bag to the inside of case 405.

Preferably, as shown in fig. 5 to 7, a photoelectric sensor 19 is further fixedly mounted on an inner side wall of the cabinet body 1 through a support rod 18, the position of the photoelectric sensor 19 is matched with the position of the through slot 7, the photoelectric sensor 19 is used for detecting the connection rod 401, a controller 13 is further fixedly mounted inside the cabinet body 1, a signal input end of the controller 13 is electrically connected with a signal output end of the photoelectric sensor 19 through a signal line, and a control output end of the controller 13 is electrically connected with an electric control end of the reduction motor 302 and an electric control end of the lamp tube 502 through control lines respectively. The photoelectric sensor 19 is used for detecting the connecting rod 401, when the connecting rod 401 moves to the position of the photoelectric sensor 19, the speed reduction motor 302 stops running, at the moment, a storage box 405 is opposite to the through groove 7, and the venous transfusion bag placed inside the storage box 405 can be taken by opening the cover plate 8.

Preferably, as shown in fig. 1 to 4, a proximity sensor 9 and an electromagnet 10 are further fixedly mounted at a position close to the through groove 7 on the inner side surface of the cabinet door 6, a signal output end of the proximity sensor 9 is electrically connected with a signal input end of the controller 13 through a signal line, an electric control end of the electromagnet 10 is electrically connected with a control output end of the controller 13 through a control line, a stainless steel adsorption block 11 matched with the electromagnet 10 is further fixedly mounted on the inner side surface of the cover plate 8, an electromagnet unlocking button 15 is further fixedly mounted on the outer side surface of the cabinet door 6, and the electromagnet unlocking button 15 is electrically connected with the signal input end of the controller 13 through a signal line. The proximity sensor 9 is used for detecting the position of the cover plate 8, when the cover plate 8 is far away from the proximity sensor 9, the cover plate 8 is opened, at the moment, the proximity sensor 9 generates an electric signal and uploads the electric signal to the controller 13, the controller 13 controls the lamp tube 502 to be opened to illuminate the inside of the cabinet body 1, thereby being convenient for medical staff to take the intravenous fluid infusion bag placed in the storage box 405, the electromagnet unlocking button 15 is pressed before the cover plate 8 is opened through the handle 14, at the moment, the controller 13 controls the electromagnet 10 to be powered off, the cover plate 8 can be opened, when the cover plate 8 is closed again, the proximity sensor 9 senses the cover plate 8 again, the proximity sensor 9 generates an electric signal again and uploads the electric signal to the controller 13, the controller 13 controls the electromagnet 10 to be powered on to tightly suck and lock the stainless steel adsorption block 11, so as to lock the cover plate 8, and the phenomenon that dust, contamination of the iv bag inside the storage case 405 by dust can be avoided.

Preferably, as shown in fig. 1 to 3, a handle lock 17 is further fixedly mounted on the cabinet door 6, and the handle lock 17 is disposed adjacent to a side of the cabinet door 6 away from the travel switch 12. Usable handle lock 17 locks cabinet door 6 on the cabinet body 1, can avoid cabinet door 6 to open by oneself and lead to the cabinet body 1 inside to fall into the dust, can avoid the inside vein fluid infusion bag of case 405 to be polluted by the dust.

Preferably, as shown in fig. 2, four universal wheels 16 are further fixedly mounted at the bottom of the cabinet body 1, the four universal wheels 16 are symmetrically arranged, and the four universal wheels 16 are all self-locking universal wheels. The cabinet body 1 can be conveniently moved by means of four universal wheels 16, so that the storage cabinet is labor-saving and convenient to move.

It should be noted that the controller 13 may be a Siemens S7-300 series PLC controller, the proximity sensor 9 may be a W-05P type proximity sensor, and the photoelectric sensor 19 may be a E3JK-5S3 type photoelectric sensor.

Example 2

The difference from the embodiment 1 is that the surface of the cabinet body 1 is further provided with a protective layer, and the protective layer is prepared by the following method:

weighing the following raw materials in parts by weight: 15-35 parts of epoxy resin, 10-15 parts of calcium carbonate powder, 10-12 parts of nano silver powder, 12-16 parts of melamine resin, 8-10 parts of mica powder, 15-20 parts of acrylic emulsion, 3-5 parts of paraffin, 2-4 parts of alcohol ester dodeca, 2-4 parts of triethanolamine, 1-3 parts of emulsified silicone oil and 30-50 parts of water;

s1, adding the weighed acrylic emulsion, paraffin, alcohol ester dodeca, triethanolamine, emulsified silicone oil and water into a stirrer, and stirring for 30-40min at the stirring speed of 600-;

s2, adding epoxy resin, calcium carbonate powder, nano silver powder, melamine resin and mica powder into a grinder to grind until the particle diameter of the material is not more than 50um, and preparing a mixed powder material;

s3, adding the mixed solution prepared in the step S1 and the mixed powder material prepared in the step S2 into a reaction kettle, stirring for 30-50min, setting the stirring speed of the reaction kettle to be 700-900r/min and the temperature to be 80-100 ℃, and thus obtaining the protective coating;

s4, cleaning the surface of the cabinet body 1, drying the surface by using a hot air blower, and then uniformly spraying the protective coating prepared in the step S3 on the surface of the dried cabinet body 1 by using a high-pressure sprayer spray gun to form a coating film with the thickness of 80-100 um;

s5, drying the cabinet 1 sprayed with the protective coating in the step S4 in a drying chamber at the drying temperature of 100 ℃ and 120 ℃ for 30-40min, namely, preparing the protective layer on the surface of the cabinet 1.

The cabinet 1 of example 1-2 was tested for the antibacterial property of the surface thereof in a laboratory under the same conditions, and the cabinet 1 of example 1-2 was placed in a bacteria culture room and left for 7 days to take out and observed with a microscope as shown in the following table

Examples	Observation results
		Example 1	The surface of the cabinet body 1 nourishes a large amount of bacteria
Example 2	The surface of the cabinet 1 is almost free from bacteria

The comparative analysis of the test results in the above table shows that the embodiment 2 is the optimal embodiment, by adopting the above technical scheme, the process for preparing the protective coating is simple in steps and easy to implement, the prepared protective coating has moderate viscosity, is not easy to layer, is convenient to spray, does not generate bubbles, is fully combined with various components, and has good comprehensive performance, so that the protective coating can form a good coating after spraying, is not easy to generate cracks, and has good film forming effect, the prepared protective layer has good corrosion resistance, water resistance, bacteria resistance and ageing resistance, has good adhesion and is not easy to fall off, and the corrosion resistance, water resistance, bacteria resistance and ageing resistance of the cabinet body 1 can be effectively improved, so that the storage cabinet has long service life, and particularly, the storage cabinet can be prevented from influencing the sanitary condition due to the fact that a large amount of bacteria are nourished on the surface in the long-term use process.

The working principle is as follows: the intelligent intravenous fluid infusion bag storage cabinet is characterized in that when the intelligent intravenous fluid infusion bag storage cabinet is used, a cabinet door 6 is opened through a handle lock 17, intravenous fluid infusion bags are sequentially put into the storage box 405 from bottom to top according to the distance of date and time, then the position of the storage box 405 is adjusted to enable the storage box 405 with the intravenous fluid infusion bag with the farthest date to be aligned to a cover plate 8, then the cabinet door 6 is closed, when the intravenous fluid infusion bag is taken next time, an electromagnet unlocking button 15 is pressed before the cover plate 8 is opened through a handle 14, at the moment, a controller 13 controls the electromagnet 10 to be powered off, the cover plate 8 can be opened, then the intravenous fluid infusion bag in the storage box 405 corresponding to the position of a through groove 7 is taken out, the cover plate 8 is closed by hands after the intravenous fluid infusion bag is taken out, when a proximity sensor 9 senses the cover plate 8 again, an electric signal is generated by the proximity sensor 9 and is uploaded to the controller 13 again, the controller 13 controls the electromagnet, thereby pin apron 8, while controller 13 control gear motor 302 moves towards same direction, when photoelectric sensor 19 detected next connecting rod 401, controller 13 control gear motor 302 stall, at this moment, the vein fluid infusion bag that date time is the farthest will aim at apron 8, conveniently take next time, with this can realize taking the vein fluid infusion bag according to the date time of vein fluid infusion bag far and near, can effectively avoid the inside vein fluid infusion of the vein fluid infusion bag far away time overdue, bring great facility for medical personnel's daily work.

The parts not involved in the present invention are the same as or can be implemented by the prior art. The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (10)

1. The utility model provides an intelligence vein fluid infusion bag storing compartment which characterized in that: the method comprises the following steps:

the refrigerator comprises a cabinet body (1), wherein a cabinet door (6) is hinged to the front part of the cabinet body (1), a through groove (7) is formed in the cabinet door (6), a cover plate (8) is hinged to the inside of the through groove (7), and a handle (14) is fixedly mounted on the outer side surface of the cover plate (8);

the circulating conveying mechanism (2) is installed inside the cabinet body (1), and the circulating conveying mechanism (2) is vertically arranged;

the driving mechanism (3) is installed inside the cabinet body (1), and the driving mechanism (3) is in transmission connection with the circulating conveying mechanism (2);

the vein fluid infusion bag storing mechanism (4) is provided with a plurality of groups, the vein fluid infusion bag storing mechanism (4) is fixedly arranged on the circulating conveying mechanism (2), and the vein fluid infusion bag storing mechanisms (4) are arranged at equal intervals.

2. The intelligent intravenous fluid bag storage cabinet of claim 1, wherein: circulation conveying mechanism (2) include two back shaft (201), two back shaft (201) all install through bearing frame (202) level and rotation the inside of the cabinet body (1), and two parallel arrangement about back shaft (201), every all fixed cover is equipped with two sprocket (203) on back shaft (201), lie in two from top to bottom with one side sprocket (203) all connect through a driving chain (204) transmission, two the equal vertical setting of driving chain (204), and two interval has between driving chain (204).

3. The intelligent intravenous fluid bag storage cabinet of claim 2, wherein: actuating mechanism (3) include crossbeam (301), gear motor (302), drive pulley (305) and driven pulley (304), crossbeam (301) level and fixedly install the inside of the cabinet body (1), gear motor (302) pass through motor cabinet (303) fixed mounting on crossbeam (301), drive pulley (305) fixed mounting in the output shaft tip of gear motor (302), driven pulley (304) fixed suit is in one of them on support shaft (201), just driven pulley (304) pass through belt (306) with drive pulley (305) transmission is connected.

4. The intelligent intravenous fluid bag storage cabinet of claim 3, wherein: every group vein fluid infusion bag deposits mechanism (4) all includes two connecting rods (401), slide bar (402), two sliding sleeves (404), two Y shape link (403) and case (405), two connecting rod (401) fixed mounting respectively is two on the side that drive chain (204) are close to each other, and two connecting rod (401) symmetry sets up, slide bar (402) level and fixedly install two between connecting rod (401), two sliding sleeve (404) all rotate the suit and are in on slide bar (402), and two sliding sleeve (404) symmetry sets up, two Y shape link (403) fixed mounting respectively is two the bottom of sliding sleeve (404), case (405) fixed mounting is two between Y shape link (403).

5. The intelligent intravenous fluid bag storage cabinet of claim 1, wherein: still include lighting mechanism (5), lighting mechanism (5) include two lamp stands (501) and fluorescent tube (502), two equal fixed mounting in lamp stand (501) are in the interior roof bottom of the cabinet body (1), fluorescent tube (502) spiro union is in two between lamp stand (501).

6. The intelligent intravenous fluid bag storage cabinet of claim 5, wherein: still fixed mounting has travel switch (12) on the inside wall of the cabinet body (1), travel switch (12) with cabinet door (6) cooperate the setting, just travel switch (12) with fluorescent tube (502) series connection.

7. The intelligent intravenous fluid bag storage cabinet of claim 4, wherein: still have photoelectric sensor (19) through bracing piece (18) fixed mounting on the inside wall of the cabinet body (1), photoelectric sensor (19) the position with the position that leads to groove (7) cooperatees and sets up, just photoelectric sensor (19) are used for detecting connecting rod (401), the inside of the cabinet body (1) is still fixed mounting has controller (13), the signal input part passing signal line of controller (13) with the signal output part electric connection of photoelectric sensor (19), just the control output part of controller (13) pass through the control line respectively with the automatically controlled end of gear motor (302) with the automatically controlled end electric connection of fluorescent tube (502).

8. The intelligent intravenous fluid bag storage cabinet of claim 7, wherein: close on the medial surface of cabinet door (6) the position department that leads to groove (7) still fixed mounting have proximity sensor (9) and electro-magnet (10), the signal output part passing signal line of proximity sensor (9) with the signal input part electric connection of controller (13), the automatically controlled end of electro-magnet (10) pass through the control line with the control output part electric connection of controller (13), still fixed mounting on the medial surface of apron (8) with electro-magnet (10) matched with stainless steel adsorbs piece (11), still fixed mounting electro-magnet unblock button (15) on the lateral surface of cabinet door (6), electro-magnet unblock button (15) passing signal line with the signal input part electric connection of controller (13).

9. The intelligent intravenous fluid bag storage cabinet of claim 6, wherein: the cabinet door (6) is also fixedly provided with a handle lock (17), and the handle lock (17) is arranged close to one side of the cabinet door (6) far away from the travel switch (12).

10. The intelligent intravenous fluid bag storage cabinet of claim 1, wherein: the bottom of the cabinet body (1) is also fixedly provided with four universal wheels (16), four the universal wheels (16) are symmetrically arranged, and four the universal wheels (16) are self-locking universal wheels.

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