CN115775619B - Intelligent medical information issuing device based on Internet of things - Google Patents

Abstract

The invention belongs to the technical field of medical equipment, and particularly relates to an intelligent medical information issuing device based on the Internet of things, which comprises a shell and an information issuing device arranged in the shell; the information release device comprises an intelligent control assembly, a driving assembly, a partition board, a step display assembly, a reset assembly and a linkage assembly, wherein the intelligent control assembly is electrically connected with an external power supply, and the intelligent control assembly is respectively and electrically connected with the driving assembly and the step display assembly; the invention has novel design and reasonable structure, can automatically and regularly draw and adjust the data information in the hospital server through the intelligent control component and display the data information through the step display component, has the fixed structure of the step display component and the baby, is convenient for orderly carding various information, has strong regularity and is convenient for caregivers to understand, and meanwhile, the reset component and the linkage component are also arranged to realize data state cleaning, so that the use effect is better.

Description

Intelligent medical information issuing device based on Internet of things

Technical Field

The invention belongs to the technical field of medical equipment, and particularly relates to an intelligent medical information issuing device based on the Internet of things.

Background

Most of the existing medical information release devices are public columns, the device is fixed in structure and limited in display content, and can not well display and release the medication information of patients concerned by nursing staff, the medical care information and the like, the nursing staff is required to communicate with the medical care staff in a verbal mode, the working efficiency is low, the frequency and time of communication between the nursing staff and the medical care staff are increased, and the time of the nursing staff for taking care of patients is reduced.

In order to solve the problems, the application provides an intelligent medical information issuing device based on the Internet of things.

Disclosure of Invention

In order to solve the problems in the background technology, the invention provides an intelligent medical information release device based on the Internet of things, which is novel in design and reasonable in structure, the intelligent control component can automatically and regularly draw and adjust data information in a hospital server and display the data information through the step display component, the step display component sleeve baby type fixed structure is convenient for orderly carding various information, the regularity is strong, the nursing staff can conveniently understand the information, and meanwhile, the reset component and the linkage component are further arranged to realize data state cleaning, so that the use effect is better.

In order to achieve the above purpose, the present invention provides the following technical solutions: the intelligent medical information issuing device based on the Internet of things comprises a shell and an information issuing device arranged inside the shell;

the information issuing device comprises an intelligent control component, a driving component, a partition board, a step display component, a reset component and a linkage component, wherein the intelligent control component is arranged on the inner wall of a shell, the driving component is arranged on one side of the intelligent control component, the partition board is arranged on one side of the driving component, the step display component is uniformly arranged on the surface of the partition board, the reset component is uniformly arranged on the surface of the step display component, the linkage component is uniformly arranged on the surface of the partition board and is positioned on one side of the step display component, one end of the linkage component is connected with one end of the driving component, the other end of the linkage component is respectively connected with one end of the step display component and one end of the reset component, the intelligent control component is electrically connected with an external power supply, and the intelligent control component is respectively electrically connected with the driving component and the step display component.

As the intelligent medical information issuing device based on the Internet of things, the intelligent control assembly comprises a control box, a base plate, a microprocessor, a timing unit, a wireless communication unit, a base point positioning unit, a voice image unit and a storage battery, wherein the control box is fastened on the inner wall of a shell through bolts, the base plate is fastened on the inner wall of the control box through bolts, the microprocessor, the timing unit, the wireless communication unit, the base point positioning unit and the voice image unit are sequentially and fixedly connected to the surface of the base plate from left to right, the storage battery is fastened on the inner wall of the shell and is positioned on one side of the control box, and the storage battery is electrically connected with the microprocessor, and the microprocessor is respectively electrically connected with the timing unit, the wireless communication unit, the base point positioning unit and the voice image unit.

The timing unit is used for providing time data information in real time, the wireless communication unit is used for carrying out communication and data transmission with a hospital server in real time, the base point positioning unit is used for positioning and recording the hospital number, the building number, the floor, the room number and the bed number of the intelligent medical information issuing device in real time, the voice image unit is used for analyzing and processing data information such as voice, pictures and images transmitted in real time, the microprocessor is used for taking the data information stored in the hospital server in real time and carrying out analysis processing comparison on the data information, corresponding operation is carried out on corresponding components according to the data result after the analysis processing comparison, and the data information stored in the hospital server comprises but is not limited to doctor information, patient information, medical information, health service system information, scheduling system information and the like.

As the intelligent medical information issuing device based on the Internet of things, the driving assembly comprises a transmission shaft frame, a worm section, a driving motor, an encoder, a mounting base, a threaded screw rod, a transmission worm wheel and a transmission sliding seat, wherein the transmission shaft frame is rotationally connected to the inner wall of a shell, the worm section is uniformly and integrally formed on the surface of the transmission shaft frame, the driving motor is fastened on the inner wall of the shell and positioned on one side of the transmission shaft frame through bolts, the output end of the driving motor is fixedly connected with the central shaft of the transmission shaft frame, the encoder is fastened on the surface of the driving motor through bolts, the mounting base is uniformly and symmetrically fastened on the inner wall of the shell and positioned on one side of the transmission shaft frame, the threaded screw rod is rotationally connected to the inner wall of the mounting base, the transmission worm wheel is fixedly connected to the surface of the threaded screw rod and corresponds to the position of the worm section, the transmission sliding seat is in meshed connection with the worm section, the transmission sliding seat is in threaded connection with the surface of the threaded screw rod and is slidingly connected to the inner wall of the shell, one end of the transmission sliding seat is connected with one end of the linkage assembly, and the driving motor and the encoder are electrically connected with the microprocessor.

As the intelligent medical information issuing device based on the Internet of things, the step display assembly comprises a shell, a sub-control switch, a display screen, a conductive seat, a transmission frame, a conductive block, a limit clamping groove, a limit assembly, a guide shaft, a first spring and a conical rod, wherein the shell is fastened on the surface of a partition plate, the sub-control switch is fastened on the surface of the shell through bolts, the display screen is fixedly connected on the surface of the shell, one end of the display screen penetrates out of the shell, the conductive seat is uniformly and fixedly connected to the inner wall of the shell, the transmission frame is uniformly and slidingly connected to the inner wall of the conductive seat, the conductive block is fixedly connected to the surface of the transmission frame, the limit clamping groove is formed on the surface of the transmission frame and is positioned on one side of the conductive block, the limit assembly is uniformly arranged on the inner wall of the shell and corresponds to the position of the limit clamping groove, one end of the limit assembly is positioned in the limit clamping groove and fixedly clamped on the inner wall of the limit clamping groove, the guide shaft is in threaded connection to the top of the transmission frame and is slidingly connected to the inner wall of the shell, the first spring is fixedly connected to the inner wall of the shell and sleeved on the outer side of the guide shaft, one end of the conical rod is fixedly connected to the bottom of the transmission frame and is electrically connected to one end of the microprocessor.

As the intelligent medical information issuing device based on the Internet of things, the inner wall of the conductive seat is symmetrically provided with the semi-annular conductive rings, the conductive blocks, the display screen, the sub-control switch and the storage battery are all connected through the conductive wires, the sub-control switch is used for controlling the electrifying of all the display screens on the surface of the shell corresponding to the position of the sub-control switch, and the semi-annular conductive rings and the conductive blocks are intermittently contacted for controlling the electrifying of a single group of display screens corresponding to the position of the conductive blocks.

As the intelligent medical information issuing device based on the Internet of things, the limiting assembly comprises the sliding clamping block, the second spring and the reset shaft rod, the sliding clamping block is slidably connected to the inner wall of the shell, one end of the sliding clamping block is positioned in the limiting clamping groove and fixedly clamped with the inner wall of the limiting clamping groove, the second spring is positioned in the shell and sleeved on the outer side of one end of the sliding clamping block, the reset shaft rod is in threaded connection with the surface of the sliding clamping block, and one end of the reset shaft rod penetrates through the outer portion of the shell and is connected with one end of the reset assembly.

As the intelligent medical information issuing device based on the Internet of things, the reset assembly comprises a limit shaft seat, a reset rod frame, a third spring, a connecting screw rod, a fixed plate frame, a reset plate and a fourth spring, wherein the limit shaft seat is symmetrically and fixedly connected to the surface of a shell, the reset rod frame is slidably connected to the inner wall of the limit shaft seat and is positioned at one side of a reset shaft rod, the third spring is sleeved outside one end of the reset rod frame, one end of the third spring is fixedly connected with one end of the limit shaft seat, the other end of the third spring is fixedly connected with one end of the reset rod frame, two adjacent groups of reset rod frames are connected through the connecting screw rod, the fixed plate frame is fastened on the surface of a partition plate and is positioned at one side of the shell, the reset plate frame is slidably connected to the surface of the fixed plate frame and corresponds to the position of a taper rod, one end of the reset plate frame is fixedly connected with one end of the reset plate frame, the fourth spring is sleeved outside one end of the reset plate frame and is positioned between the reset plate frame and the fixed plate frame, and the other end of the reset plate frame is fixedly connected with the fixed surface.

As the intelligent medical information release device based on the Internet of things, the surface of the reset rod frame is uniformly provided with the hanging rods and is positioned on one side of the reset rod, and the hanging rods, the reset rod, the conical rods and the display screen are equal in number and corresponding in position.

As the intelligent medical information release device based on the Internet of things, the linkage assembly comprises the linkage conical sliding seat and the pointer seat, wherein the linkage conical sliding seat is connected to the surface of the partition plate in a sliding manner and is positioned between the reset plate and the conical rod, one end of the linkage conical sliding seat is respectively connected with one end of the conical rod and one end of the reset plate, the pointer seat is connected to the surface of the shell in a sliding manner and corresponds to the position of the linkage conical sliding seat, one end of the linkage conical sliding seat is connected with one end of the transmission sliding seat, and the other end of the linkage conical sliding seat is connected with one end of the pointer seat.

Compared with the prior art, the invention has the beneficial effects that: the invention has novel design and reasonable structure, can automatically and regularly draw and adjust the data information in the hospital server through the intelligent control component and display the data information through the step display component, has the fixed structure of the step display component and the baby, is convenient for orderly carding various information, has strong regularity and is convenient for caregivers to understand, and meanwhile, the reset component and the linkage component are also arranged to realize data state cleaning, so that the use effect is better.

Drawings

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. In the drawings:

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic diagram of an information issuing apparatus according to the present invention;

FIG. 3 is a schematic diagram of the intelligent control module according to the present invention;

FIG. 4 is a schematic diagram of a control box according to the present invention

FIG. 5 is a schematic view of a diaphragm mechanism according to the present invention;

FIG. 6 is a schematic view of a step display assembly according to the present invention;

FIG. 7 is a schematic diagram of a conductive base structure according to the present invention;

FIG. 8 is a schematic view of a semi-annular conductive ring according to the present invention;

FIG. 9 is a schematic diagram of a reset assembly according to the present invention;

fig. 10 is a schematic view of a third spring structure according to the present invention.

In the figure:

1. a housing; 2. an information issuing device; 21. an intelligent control component; 22. a drive assembly; 23. a partition plate; 24. a step display assembly; 25. a reset assembly; 26. a linkage assembly;

211. a control box; 212. a substrate; 213. a microprocessor; 214. a timing unit; 215. a wireless communication unit; 216. a base point positioning unit; 217. a voice image unit; 218. a storage battery;

221. A transmission shaft bracket; 222. a worm section; 223. a driving motor; 224. an encoder; 225. a mounting base; 226. a threaded screw rod; 227. a drive worm wheel; 228. a transmission slide seat;

241. a housing; 242. a sub-control switch; 243. a display screen; 244. a conductive base; 245. a transmission frame; 246. a conductive block; 247. a limit clamping groove; 248. a limit component; 249. a guide shaft; 2410. a first spring; 2411. a tapered rod;

2441. a semi-annular conductive ring;

2481. sliding the clamping block; 2482. a second spring; 2483. resetting the shaft lever;

251. a limiting shaft seat; 252. a reset rod frame; 253. a third spring; 254. a connecting screw; 255. a fixed plate frame; 256. resetting the plate; 257. a fourth spring;

2521. a hanging rod;

261. linkage conical sliding seat; 262. a finger holder;

100. a first base bulletin display screen; 200. and a second base bulletin display screen.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples

Please refer to fig. 1-10;

the intelligent medical information issuing device based on the Internet of things comprises a shell 1 and an information issuing device 2 arranged inside the shell 1;

the information release device 2 comprises an intelligent control component 21, a driving component 22, a partition board 23, a step display component 24, a reset component 25 and a linkage component 26, wherein the intelligent control component 21 is arranged on the inner wall of the shell 1, the driving component 22 is arranged on the inner wall of the shell 1 and positioned on one side of the intelligent control component 21, the partition board 23 is arranged on the inner wall of the shell 1 and positioned on one side of the driving component 22, the step display component 24 is uniformly arranged on the surface of the partition board 23, the reset component 25 is uniformly arranged on the surface of the step display component 24, the linkage component 26 is uniformly arranged on the surface of the partition board 23 and positioned on one side of the step display component 24, one end of the linkage component 26 is connected with one end of the driving component 22, the other end of the linkage component 26 is respectively connected with one end of the step display component 24 and one end of the reset component 25, the intelligent control component 21 is electrically connected with an external power supply, and the intelligent control component 21 is respectively electrically connected with the driving component 22 and the step display component 24.

In this embodiment, the following description is given of the present invention. Holes, holes and grooves which are matched with the external dimension of the information release device 2 are formed on the surface and the inner wall of the shell 1.

In this embodiment: when in use, the microprocessor 213 will regularly fetch the data information stored in the hospital server through the wireless communication unit 215 according to the time data information provided by the timing unit 214, the data information stored in the hospital server includes but is not limited to doctor information, patient information, medicine information, health service system information, scheduling system information, etc., taking the medicine information of the patient as an example, firstly, after a set time, the medicine information of the patient with the bed number needs to be issued by the device, so that the patient can take medicine according to the issued medicine information, the medicine information includes the medicine name, medicine taking times, medicine taking time, single taking quantity, etc. which are required to be taken by the patient, the device sets 9 groups of step display components 24 on the basis, the 9 groups of step display components 24 are distributed in 3*3 array, the three vertical groups of arrays correspond to three taking time periods in the morning, in the middle and at the evening respectively, the three horizontal groups of arrays correspond to the taking times of medicines respectively, for example, the medicines displayed by the first group of horizontal arrays synchronously correspond to the second vertical array, the result is that the medicines displayed in the step display assembly 24 unit are taken once a day, and the taking time period is noon, the principle is the same, the medicines displayed by the second group of horizontal arrays synchronously correspond to the first vertical array and the third vertical array, the result is that the medicines displayed in the step display assembly 24 unit are taken twice a day, and the taking time period corresponds to the morning and the evening, the medicines displayed by the third group of horizontal arrays synchronously correspond to the first vertical array, the second vertical array and the third vertical array, the result is that the medicines displayed in the step display assembly 24 unit are taken three times a day, and the taking time period respectively corresponds to the morning, in noon and evening, a plurality of groups of display screens 243 are arranged on the surface of the step display assembly 24, the display screens 243 further comprise an upper screen and a lower screen, the contents displayed by the upper screen and the lower screen are different, for example, the upper screen displays medicine pictures, the lower screen displays the single taking quantity of the medicine correspondingly, when in use, the microprocessor 213 controls the corresponding sub-control switches 242 to be turned on according to data information, the sub-control switches 242 are turned on to electrify all the display screens 243 on the surface of the shell 241 corresponding to the positions of the sub-control switches 242, the state corresponding to the medicine can be known by observing the position information of the bright display screens 243, for example, the bright position of the first transverse array is in the third vertical array, namely, the medicine displayed in the step display assembly 24 unit is taken once a day and at night, the patient sees the medicine at a glance, specific data is determined by the microprocessor 213 drawing data information in the hospital server, wherein the number of the step display components 24 can also be adjusted according to the practical use requirement, when the microprocessor 213 drawing data information in the hospital server and processing and projecting the data information on the display screen 243, the microprocessor 213 controls the power-on operation of the driving motor 223 according to the internal program timing, the driving motor 223 is powered on to rotate synchronously to drive the transmission shaft bracket 221 to rotate, the transmission shaft bracket 221 rotates synchronously to drive the worm section 222 to rotate, the worm section 222 rotates synchronously to drive the transmission worm wheel 227 in meshed connection with the worm section 222 to rotate, the transmission worm wheel 227 rotates synchronously to drive the threaded screw 226 to rotate, the threaded screw 226 rotates synchronously to drive the transmission slide seat 228 to move to one side along the inner wall of the shell 1, the transmission slide seat 228 moves synchronously to drive the linked conical slide seat 261 to move so as to trigger the step display component 24 and the reset component 25 to operate sequentially, in an initial state, the linkage conical slide 261 is positioned between the reset plate 256 and the first group of conical rods 2411, when the linkage conical slide 261 moves, the linkage conical slide 261 contacts with the first group of conical rods 2411, when the linkage conical slide 261 moves and contacts with the conical rods 2411, the conical rods 2411 start to move upwards along the inner wall of the shell 241 under the extrusion of the linkage conical slide 261, the conical rods 2411 move upwards to synchronously drive the transmission frame 245 to move upwards along the inner wall of the conductive seat 244, the transmission frame 245 moves upwards to synchronously drive the conductive block 246, the limiting clamping groove 247 and the guide shaft 249 to synchronously move upwards, the conductive block 246 moves upwards to be separated from the semi-annular conductive ring 2441 on the inner wall of the conductive seat 244, thereby leading the single group of display screens 243 corresponding to the positions of the conductive seat 244 to be in a power-off state, and when the limiting clamping groove 247 moves to the positions corresponding to the positions of the limiting assemblies 248, the sliding clamping block 2481 loses the extrusion force of the transmission frame 245, starts to enter the limiting clamping groove 247 and is clamped and fixed with the inner wall of the limiting clamping groove 247, so that the position of the transmission frame 245 is limited, meanwhile, the transmission frame 245 ascends and synchronously extrudes the first spring 2410, along with the continuous movement of the linkage conical sliding seat 261, the linkage conical sliding seat 261 is contacted with a plurality of groups of conical rods 2411 successively, the groups of conical rods 2411 displace and move the linkage conducting block 246 to be separated from the semi-annular conducting ring 2441 on the inner wall of the conducting seat 244, so that the group of display screens 243 are powered off, the sliding clamping block 2481 is clamped and fixed with the limiting clamping groove 247, the position of the transmission frame 245 is fixed, the intermittent off-off of the display screens 243 shows the progress condition, the use effect is better, the microprocessor 213 can control the driving motor 223 to reversely rotate the linkage conical sliding seat 261 to reset after the set time is reached (namely, one day is finished), the next operation and use is convenient, because the tapered rod 2411 has risen and is fixed in position, it will not contact the tapered rod 2411 during the resetting of the linked tapered slide 261 until the linked tapered slide 261 is reset to the set position and contacts the reset plate 256, when the linked tapered slide 261 contacts the reset plate 256, the linked tapered slide 261 synchronously presses the reset plate 256 to move toward the fixed plate rack 255, the reset plate 256 moves to synchronously press the fourth spring 257, at the same time, the reset plate 256 moves to synchronously drive one set of connected reset rod frames 252 to move, the reset rod frames 252 move to synchronously drive the other sets of reset rod frames 252 to synchronously move through the connecting screw 254, and synchronously press the third spring 253 during the moving, when the reset rod frames 252 move, the hanging rod 2521 synchronously moves, and synchronously driving the reset shaft lever 2483 to move in the moving process so as to trigger the limiting assembly 248 to operate, the reset shaft lever 2483 moves to synchronously drive the sliding clamping block 2481 to move and not fix the limiting clamping groove 247, the transmission frame 245 is reset under the action of the elastic force of the first spring 2410 after losing force, the transmission frame 245 is reset to synchronously drive the taper rod 2411 to reset, so that the next operation is convenient, when the linkage taper slide 261 is reset to the initial position, the reset plate 256 loses force and resets under the action of the elastic force of the fourth spring 257, the reset rod frame 252 loses force and resets under the action of the elastic force of the third spring 253, the next operation can directly issue medical on duty information and the like, the vertical array synchronization corresponds to the early, middle and late time period, the transverse array information corresponds to the positions of a main doctor, an on duty doctor, a nurse and the like, the principle is the same, the format sleeve content is fixed until all information is issued, strong regularity and convenient understanding for caregivers.

Further, the method comprises the following steps:

in an alternative embodiment: the intelligent control assembly 21 comprises a control box 211, a base plate 212, a microprocessor 213, a timing unit 214, a wireless communication unit 215, a base point positioning unit 216, a voice image unit 217 and a storage battery 218, wherein the control box 211 is fastened on the inner wall of the shell 1 through bolts, the base plate 212 is fastened on the inner wall of the control box 211 through bolts, the microprocessor 213, the timing unit 214, the wireless communication unit 215, the base point positioning unit 216 and the voice image unit 217 are sequentially and fixedly connected on the surface of the base plate 212 from left to right, the storage battery 218 is fastened on the inner wall of the shell 1 and is positioned on one side of the control box 211, the storage battery 218 is electrically connected with the microprocessor 213, and the microprocessor 213 is electrically connected with the timing unit 214, the wireless communication unit 215, the base point positioning unit 216 and the voice image unit 217 respectively.

In this embodiment, the following description is given of the present invention. The intelligent control module 21 further includes a speaker (not shown) electrically connected to the microprocessor 213.

In this embodiment, the following description is given of the present invention. Further explain the structure and the connection and the relation of intelligent control subassembly 21, be used for automatic data information and automatic control release message through setting up intelligent control subassembly 21, automatic control uses manpower sparingly material resources, improves work efficiency, excellent in use effect.

Still further, the method comprises:

in an alternative embodiment: the timing unit 214 is configured to provide time data information in real time, the wireless communication unit 215 is configured to communicate with a hospital server in real time and perform data transmission, the base point positioning unit 216 is configured to position and record a hospital number, a building number, a floor, a room number, and a bed number where the device is located in real time, the voice image unit 217 is configured to analyze and process data information such as voice, picture, and image transmitted in real time, the microprocessor 213 is configured to retrieve data information stored in the hospital server in real time, analyze and process and compare the data information, and control corresponding components according to a result of the data analysis and process and compare, and the data information stored in the hospital server includes, but is not limited to, doctor information, patient information, medical information, health service system information, scheduling system information, and the like.

In this embodiment, the following description is given of the present invention. The functions of the microprocessor 213, the timing unit 214, the wireless communication unit 215, the base point positioning unit 216, and the audio/video unit 217 are further explained.

Still further, the method comprises:

in an alternative embodiment: the driving assembly 22 comprises a transmission shaft bracket 221, a worm section 222, a driving motor 223, an encoder 224, a mounting base 225, a threaded screw rod 226, a transmission worm wheel 227 and a transmission sliding seat 228, wherein the transmission shaft bracket 221 is rotationally connected to the inner wall of the shell 1, the worm section 222 is uniformly and integrally formed on the surface of the transmission shaft bracket 221, the driving motor 223 is fastened on the inner wall of the shell 1 and positioned on one side of the transmission shaft bracket 221, the output end of the driving motor 223 is fixedly connected with the central shaft of the transmission shaft bracket 221, the encoder 224 is fastened on the surface of the driving motor 223, the mounting base 225 is uniformly and symmetrically fastened on the inner wall of the shell 1 and positioned on one side of the transmission shaft bracket 221, the threaded screw rod 226 is rotationally connected on the inner wall of the mounting base 225, the transmission worm wheel 227 is fixedly connected on the surface of the threaded screw rod 226 and corresponds to the position of the worm section 222, the transmission sliding seat 228 is connected on the surface of the threaded screw rod 226 in a sliding manner and is connected to the inner wall of the shell 1, one end of the transmission sliding seat 228 is connected with one end of the linkage assembly 26, and the driving motor 223 and the encoder 224 are electrically connected with the microprocessor 213.

In this embodiment, the following description is given of the present invention. The encoder 224 is used to record the number of rotations of the driving motor 223 in real time and transmit the related data information to the microprocessor 213 in real time.

In this embodiment, the following description is given of the present invention. When the device is used, the microprocessor 213 controls the driving motor 223 to run at regular time, the driving motor 223 is electrified to rotate synchronously to drive the transmission shaft bracket 221 to rotate, the transmission shaft bracket 221 rotates synchronously to drive the worm section 222 to rotate, the worm section 222 rotates synchronously to drive the transmission worm wheel 227 in meshed connection with the worm section 222 to rotate, the transmission worm wheel 227 rotates synchronously to drive the threaded screw rod 226 to rotate, the threaded screw rod 226 rotates synchronously to drive the transmission sliding seat 228 to move to one side along the inner wall of the shell 1, and the transmission sliding seat 228 moves synchronously to drive the linkage conical sliding seat 261 to move so as to trigger the step display assembly 24 and the reset assembly 25 to run successively, so that the device has a good use effect.

Still further, the method comprises:

in an alternative embodiment: the step display assembly 24 comprises a shell 241, a sub-control switch 242, a display screen 243, a conductive seat 244, a transmission frame 245, a conductive block 246, a limiting clamping groove 247, a limiting assembly 248, a guide shaft 249, a first spring 2410 and a conical rod 2411, wherein the shell 241 is fastened on the surface of the partition 23 by bolts, the sub-control switch 242 is fastened on the surface of the shell 241 by bolts, the display screen 243 is fixedly connected on the surface of the shell 241, one end of the display screen 243 penetrates out of the shell 1, the conductive seat 244 is uniformly and fixedly connected on the inner wall of the shell 241, the transmission frame 245 is uniformly and slidingly connected on the inner wall of the conductive seat 244, the conductive block 246 is fixedly connected on the surface of the transmission frame 245, the limiting clamping groove 247 is formed on the surface of the transmission frame 245 and is positioned on one side of the conductive block 246, the limiting assembly 248 is uniformly arranged on the inner wall of the shell 241 and corresponds to the limiting clamping groove 247 in position, one end of the limiting assembly 248 is positioned in the limiting clamping groove 247 and fixedly clamped with the inner wall of the limiting clamping groove 247, the guide shaft 249 is in threaded connection with the top of the transmission frame 245 and slidingly connected on the inner wall of the shell 241, the first spring 2410 is fixedly connected on the inner wall of the shell and sleeved outside the guide shaft 241, the conical rod 2411 is fixedly connected on the bottom of the transmission frame 241 and the outer side of the outer wall 241 is fixedly connected on the outer side of the guide shaft 241, the conical rod 241 is uniformly and the bottom of the transmission frame 241 is fixedly connected on the bottom one end of the transmission frame 241 and the end is connected to the end 213 and penetrates out of the microprocessor 213 and is electrically connected to the microprocessor 213.

In this embodiment, the following description is given of the present invention. The display screen 243 is a plurality of groups of horizontally arranged and distributed, the display screen 243 comprises an upper screen and a lower screen, the contents displayed by the upper screen and the lower screen are different, for example, the upper screen displays medicine pictures or doctor portrait pictures, the lower screen displays medicine numbers or doctor names corresponding to each other, and specific data is determined by the microprocessor 213 calling the data information in the hospital server.

In this embodiment, the following description is given of the present invention. The surface of the partition 23 is also provided with a first basic bulletin display screen 100 and a second basic bulletin display screen 200, the surfaces of the first basic bulletin display screen 100 and the second basic bulletin display screen 200 are respectively provided with a sub-control switch 242, the first basic bulletin display screen 100 is used for displaying position information corresponding to the device, such as an X span, an X layer, an X room number, an X bed number and the like, and the second basic bulletin display screen 200 is used for displaying patient names, basic disease information and the like corresponding to the bed number.

In this embodiment, the following description is given of the present invention. The step display components 24 are arranged into 9 groups at least and are arranged in a 3*3 array, and the number of the step display components 24 can be increased according to actual use function requirements.

In this embodiment, the following description is given of the present invention. In the initial state, after the sub-control switch 242 is energized, all the display screens 243 on the surface of the housing 241 corresponding to the position of the sub-control switch 242 are in an energized state, at this time, the conductive block 246 is also in a contact state with the semi-annular conductive ring 2441 on the inner wall of the conductive seat 244, and after the conductive block 246 is separated from the semi-annular conductive ring 2441 on the inner wall of the conductive seat 244, a single group of display screens 243 corresponding to the position of the conductive seat 244 are in a power-off state.

In this embodiment, the following description is given of the present invention. When the device is used, the microprocessor 213 controls the corresponding sub-control switch 242 to be turned on according to the data information, the sub-control switch 242 is turned on to electrify all the display screens 243 on the surface of the shell 241 corresponding to the positions of the sub-control switch 242, the display screens 243 display the data information processed by the microprocessor 213 in real time after being electrified, the corresponding data information can be directly read by directly observing the display screens 243, in the initial state, the display screens 243 are electrified and are all in the running state, when the linkage conical sliding seat 261 moves and contacts with the conical rod 2411, the conical rod 2411 starts to move upwards along the inner wall of the shell 241 under the extrusion of the linkage conical sliding seat 261, the upward movement of the conical rod 2411 synchronously drives the transmission frame 245 to move upwards along the inner wall of the conductive seat 244, the transmission frame 245 moves upwards to synchronously drive the conductive block 246, the limit clamping groove 247 and the guide shaft 249 to synchronously move upwards, the conductive block 246 moves upwards to be separated from the semi-annular conductive ring 2441 on the inner wall of the conductive seat 244, so that a single group of display screens 243 corresponding to the positions of the conductive seat 244 are in a power-off state, when the limit clamping groove 247 moves to the position corresponding to the limit assembly 248, the limit assembly 248 loses the extrusion force of the transmission frame 245 to start to enter the limit clamping groove 247 and be clamped and fixed with the inner wall of the limit clamping groove 247, so that the position of the transmission frame 245 is limited, meanwhile, the transmission frame 245 rises to synchronously extrude the first spring 2410, when the limit assembly 248 is triggered by the reset assembly 25, the limit assembly 248 does not operate to fix the limit clamping groove 247, the transmission frame 245 is reset under the elastic force of the first spring 2410, the transmission frame 245 resets to synchronously drive the tapered rod 2411 to reset, so that the next operation is facilitated, the use effect is good.

Still further, the method comprises:

in an alternative embodiment: the inner wall of the conductive seat 244 is symmetrically provided with a semi-annular conductive ring 2441, a conductive block 246, a display screen 243, a sub-control switch 242 and a storage battery 218 which are all connected through conductive wires, the sub-control switch 242 is used for controlling the electrifying of all the display screens 243 on the surface of the shell 241 corresponding to the position of the sub-control switch 242, and intermittent contact between the semi-annular conductive ring 2441 and the conductive block 246 is used for controlling the electrifying of a single group of display screens 243 corresponding to the position of the conductive block 246.

In this embodiment, the following description is given of the present invention. Further explaining the connection relation between the partition control switch 242 and the display screen 243 and the connection relation between the semi-annular conductive ring 2441 and the conductive block 246, different numbers of display screens 243 are controlled by setting different circuit connection relations, so that different using effects are achieved.

Still further, the method comprises:

in an alternative embodiment: the limiting assembly 248 comprises a sliding clamping block 2481, a second spring 2482 and a reset shaft 2483, the sliding clamping block 2481 is slidably connected to the inner wall of the shell 241, one end of the sliding clamping block 2481 is located inside the limiting clamping groove 247 and is fixedly clamped with the inner wall of the limiting clamping groove 247, the second spring 2482 is located inside the shell 241 and sleeved outside one end of the sliding clamping block 2481, the reset shaft 2483 is in threaded connection with the surface of the sliding clamping block 2481, and one end of the reset shaft 2483 penetrates out of the shell 241 and is connected with one end of the reset assembly 25.

In this embodiment, the following description is given of the present invention. In the initial state, the sliding clamping block 2481 is tightly attached to the surface of the transmission frame 245, and when the transmission frame 245 rises and drives the limiting clamping groove 247 to move to the position corresponding to the position of the sliding clamping block 2481, the sliding clamping block 2481 enters the inside of the limiting clamping groove 247 under the elastic force of the second spring 2482 and is clamped and fixed with the inner wall of the limiting clamping groove 247.

In this embodiment, the following description is given of the present invention. The second spring 2482 has a greater spring force than the first spring 2410.

In this embodiment, the following description is given of the present invention. The structure and the connection relation of the limiting assembly 248 are further explained, the position of the transmission frame 245 is limited through the sliding clamping blocks 2481 in the limiting assembly 248, intermittent power-off operation of the single-group display screen 243 is conveniently achieved, the form of the sliding clamping blocks 2481 is controlled through the reset shaft lever 2483 in the limiting assembly 248, the limiting state of the sliding clamping blocks 2481 to the transmission frame 245 is relieved, the transmission frame 245 is convenient to reset, and the use effect is good.

Still further, the method comprises:

in an alternative embodiment: the reset assembly 25 comprises a limiting shaft seat 251, a reset shaft frame 252, a third spring 253, a connecting screw 254, a fixed plate frame 255, a reset plate 256 and a fourth spring 257, wherein the limiting shaft seat 251 is symmetrically and fixedly connected to the surface of the shell 241, the reset shaft frame 252 is slidably connected to the inner wall of the limiting shaft seat 251 and located at one side of the reset shaft 2483, the third spring 253 is sleeved outside one end of the reset shaft frame 252, one end of the third spring 253 is fixedly connected with one end of the limiting shaft seat 251, the other end of the third spring 253 is fixedly connected with one end of the reset shaft frame 252, two adjacent sets of reset shaft frames 252 are connected through the connecting screw 254, the fixed plate frame 255 is fastened on the surface of the partition 23 and located at one side of the shell 241, one end of the reset plate 256 is fixedly connected with one end of the fixed plate frame 256 and corresponds to the position of the tapered rod 2411, the fourth spring 257 is sleeved outside one end of the reset plate 256 and located between the reset plate 256 and the fixed plate frame 255, one end of the fourth spring 257 is fixedly connected with the surface of the reset plate frame 256, and the fixed plate 255 is fixedly connected with the surface of the fixed plate 255.

In this embodiment, the following description is given of the present invention. The inner wall of the limit shaft seat 251 and the corresponding position of the surface of the reset rod frame 252 are respectively provided with a limit bar (not shown in the figure) and a limit groove (not shown in the figure), and the reset rod frame 252 is ensured to have the same angle through the arrangement of the limit bar and the limit groove, so that the reset rod frame 252 is prevented from being deviated.

In this embodiment, the following description is given of the present invention. When the linkage conical sliding seat 261 is in contact with the reset plate 256, the linkage conical sliding seat 261 synchronously extrudes the reset plate 256 to move towards the side of the fixed plate frame 255, the reset plate 256 synchronously extrudes the fourth spring 257, meanwhile, the reset plate 256 synchronously moves to drive one group of reset rod frames 252 connected with the reset plate 256 to move, the reset rod frames 252 synchronously drive other groups of reset rod frames 252 to synchronously move through the connecting screw 254, the third spring 253 is synchronously extruded in the moving process, when the reset rod frames 252 move, the hanging rod 2521 synchronously moves along with the movement, and synchronously drives the reset shaft 2483 to move in the moving process so as to trigger the limit assembly 248 to operate, the limit assembly 248 does not limit the drive frame 245 any more so as to reset the drive frame 245 under the elastic action of the first spring 2410, the drive frame 245 synchronously drives the conical rod 2411 to reset so as to be convenient for the next operation, after the reset of the linkage conical sliding seat 261, the reset rod frames 252 synchronously drive the reset rod frames 256 under the elastic action of the fourth spring 257, and the reset rod frames 253 are synchronously extruded under the elastic action of the third spring 253, and the reset frame 252 can be conveniently operated under the elastic action of the third spring action.

Still further, the method comprises:

in an alternative embodiment: the surface of the reset rod frame 252 is uniformly provided with hanging rods 2521 and positioned on one side of the reset rod 2483, and the hanging rods 2521, the reset rod 2483, the conical rods 2411 and the display screen 243 are equal in quantity and correspond in position.

In this embodiment, the following description is given of the present invention. The hanging rod 2521 is arranged to conveniently and synchronously drive the multiple groups of reset shaft rods 2483 to operate, so that the operation is unified, the regularity is strong, and the use effect is better.

Still further, the method comprises:

in an alternative embodiment: the linkage assembly 26 comprises a linkage conical slide seat 261 and a pointer seat 262, wherein the linkage conical slide seat 261 is slidably connected on the surface of the partition plate 23 and is positioned between the reset plate 256 and the conical rod 2411, one end of the linkage conical slide seat 261 is respectively connected with one end of the conical rod 2411 and one end of the reset plate 256, the pointer seat 262 is slidably connected on the surface of the shell 1 and corresponds to the position of the linkage conical slide seat 261, one end of the linkage conical slide seat 261 is connected with one end of the transmission slide seat 228, and the other end is connected with one end of the pointer seat 262.

In this embodiment, the following description is given of the present invention. One end of the linkage tapered slider 261, which is close to the tapered rod 2411, is tapered.

In this embodiment, the following description is given of the present invention. In the initial state, the linkage tapered slide 261 is positioned between the reset plate 256 and the tapered rod 2411, and the linkage tapered slide 261 is not contacted with the reset plate 256 and the tapered rod 2411.

In this embodiment, the following description is given of the present invention. Further explain the structure and the relation of connection of link assembly 26, set up the toper slide 261 be convenient for with toper pole 2411 and reset plate 256 mutually support to the condition of being convenient for control the circular telegram of display screen 243, set up the finger needle seat 262 and be convenient for clearly and specifically remove the position, be convenient for observe the progress, excellent in use effect.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (2)

1. Intelligent medical information issuing device based on thing networking, including casing (1), its characterized in that: the device also comprises an information issuing device (2) arranged inside the shell (1);

the information release device (2) comprises an intelligent control component (21), a driving component (22), a partition board (23), a step display component (24), a reset component (25) and a linkage component (26), wherein the intelligent control component (21) is arranged on the inner wall of the shell (1), the driving component (22) is arranged on the inner wall of the shell (1) and is positioned on one side of the intelligent control component (21), the partition board (23) is arranged on the inner wall of the shell (1) and is positioned on one side of the driving component (22), the step display component (24) is arranged on the surface of the partition board (23), the reset component (25) is arranged on the surface of the step display component (24), one end of the linkage component (26) is connected with one end of the driving component (22), the other end of the linkage component is respectively connected with one end of the step display component (24) and one end of the reset component (25), the intelligent control component (21) is electrically connected with an external power supply, and the intelligent control component (21) is respectively electrically connected with the step display component (22) and the step display component (24).

The intelligent control assembly (21) comprises a control box (211), a base plate (212), a microprocessor (213), a timing unit (214), a wireless communication unit (215), a base point positioning unit (216), a voice image unit (217) and a storage battery (218), wherein the control box (211) is fastened on the inner wall of a shell (1) through bolts, the base plate (212) is fastened on the inner wall of the control box (211), the microprocessor (213), the timing unit (214), the wireless communication unit (215), the base point positioning unit (216) and the voice image unit (217) are sequentially and fixedly connected on the surface of the base plate (212) from left to right, the storage battery (218) is fastened on the inner wall of the shell (1) and is positioned on one side of the control box (211), and the storage battery (218) is electrically connected with the microprocessor (213), and the microprocessor (213) is electrically connected with the timing unit (214), the wireless communication unit (215), the base point positioning unit (216) and the voice image unit (217) respectively.

The timing unit (214) is used for providing time data information in real time, the wireless communication unit (215) is used for carrying out communication and data transmission with a hospital server in real time, the base point positioning unit (216) is used for positioning and recording the hospital number, the building number, the floor, the room number and the bed number of the device in real time, the voice image unit (217) is used for analyzing and processing the transmitted voice, picture and image data information in real time, the microprocessor (213) is used for taking the data information stored in the hospital server in real time and carrying out analysis and processing comparison on the data information, and controlling corresponding parts to carry out corresponding operation according to the data result after the analysis and processing comparison, and the data information stored in the hospital server comprises but is not limited to doctor information, patient information, medical information, health service system information and scheduling system information;

The step display assembly (24) comprises a shell (241), a sub-control switch (242), a display screen (243), a conductive seat (244), a transmission frame (245), a conductive block (246), a limiting clamping groove (247), a limiting assembly (248), a guide shaft (249), a first spring (2410) and a conical rod (2411), wherein the shell (241) is fastened on the surface of a partition plate (23) through bolts, the sub-control switch (242) is fastened on the surface of the shell (241) through bolts, the display screen (243) is fixedly connected on the surface of the shell (241), one end of the display screen (243) penetrates out of the shell (1), the conductive seat (244) is fixedly connected on the inner wall of the shell (241), the transmission frame (245) is all connected on the inner wall of the conductive seat (244) in a sliding manner, the conductive block (246) is fixedly connected on the surface of the transmission frame (245), the limiting clamping groove (247) is arranged on the surface of the transmission frame (245) and is positioned on one side of the conductive block (246), the limiting assembly (248) is arranged on the inner wall of the shell (241) and corresponds to the position of the limiting clamping groove (247) and is positioned in the limiting clamping groove (247) and is fixedly connected with the inner wall (247), the guide shaft (249) is in threaded connection with the top of the transmission frame (245) and is in sliding connection with the inner wall of the shell (241), the first spring (2410) is fixedly connected with the inner wall of the shell (241) and is sleeved outside the guide shaft (249), the conical rod (2411) is fixedly connected with the bottom of the transmission frame (245), one end of the conical rod (2411) penetrates out of the bottom of the shell (241) and is connected with one end of the linkage assembly (26), and the sub-control switch (242) and the display screen (243) are electrically connected with the microprocessor (213);

The step display assembly (24) is provided with 9 groups, the 9 groups of step display assemblies (24) are distributed in 3*3 array, the surface of the step display assembly (24) is provided with a plurality of groups of display screens (243) which are transversely arranged, the display screens (243) comprise an upper screen and a lower screen, and the contents displayed by the upper screen and the lower screen are different;

the inner wall of the conductive seat (244) is symmetrically provided with a semi-annular conductive ring (2441), the semi-annular conductive ring (2441), a conductive block (246), a display screen (243), a sub-control switch (242) and a storage battery (218) are all connected through conductive wires, the sub-control switch (242) is used for controlling the electrifying of all the display screens (243) on the surface of the shell (241) corresponding to the position of the sub-control switch (242), and intermittent contact between the semi-annular conductive ring (2441) and the conductive block (246) is used for controlling the electrifying of a single group of display screens (243) corresponding to the position of the conductive block (246);

the limiting assembly (248) comprises a sliding clamping block (2481), a second spring (2482) and a reset shaft rod (2483), the sliding clamping block (2481) is slidably connected to the inner wall of the shell (241), one end of the sliding clamping block (2481) is located inside the limiting clamping groove (247) and is fixedly clamped with the inner wall of the limiting clamping groove (247), the second spring (2482) is located inside the shell (241) and is sleeved outside one end of the sliding clamping block (2481), the reset shaft rod (2483) is in threaded connection with the surface of the sliding clamping block (2481), and one end of the reset shaft rod (2483) penetrates out of the shell (241) and is connected with one end of the reset assembly (25);

The reset component (25) comprises a limiting shaft seat (251), a reset rod frame (252), a third spring (253), a connecting screw rod (254), a fixed plate frame (255), reset plate blocks (256) and a fourth spring (257), wherein the limiting shaft seat (251) is symmetrically and fixedly connected to the surface of the shell (241), the reset rod frame (252) is slidably connected to the inner wall of the limiting shaft seat (251) and is positioned on one side of the reset shaft rod (2483), the third spring (253) is sleeved outside one end of the reset rod frame (252), one end of the third spring (253) is fixedly connected with one end of the limiting shaft seat (251), the other end of the third spring (253) is fixedly connected with one end of the reset rod frame (252), two adjacent groups of reset rod frames (252) are connected through the connecting screw rod (254), the fixed plate frames (255) are fastened on the surface of the partition plate (23) and are positioned on one side of the shell (241), the reset rod (256) is slidably connected to the surface of the fixed plate frame (255) and corresponds to the position of the conical rod (2411), one end of the reset rod (256) is sleeved outside one end of the reset rod frame (256) and is fixedly connected with one end of the reset plate block (256) through the connecting screw rod (252), one end of the fourth spring (257) is fixedly connected with the surface of the reset plate (256), and the other end of the fourth spring is fixedly connected with the surface of the fixed plate frame (255);

The surface of the reset rod frame (252) is provided with hanging rods (2521) and is positioned on one side of the reset rod (2483), and the hanging rods (2521), the reset rod (2483), the conical rods (2411) and the display screen (243) are equal in number and corresponding in position;

the linkage assembly (26) comprises a linkage conical sliding seat (261) and a pointer seat (262), wherein the linkage conical sliding seat (261) is slidably connected on the surface of the partition board (23) and located between the reset plate (256) and the conical rod (2411), one end of the linkage conical sliding seat (261) is connected with one end of the conical rod (2411) and one end of the reset plate (256) respectively, the pointer seat (262) is slidably connected on the surface of the shell (1) and corresponds to the position of the linkage conical sliding seat (261), one end of the linkage conical sliding seat (261) is connected with one end of the transmission sliding seat (228), and the other end of the linkage conical sliding seat is connected with one end of the pointer seat (262).

2. The intelligent medical information issuing device based on the internet of things according to claim 1, wherein: the driving assembly (22) comprises a transmission shaft bracket (221), a worm section (222), a driving motor (223), an encoder (224), a mounting base (225), a threaded screw rod (226), a transmission worm wheel (227) and a transmission sliding seat (228), wherein the transmission shaft bracket (221) is rotationally connected to the inner wall of the shell (1), the worm section (222) is integrally formed on the surface of the transmission shaft bracket (221), the driving motor (223) is fastened to the inner wall of the shell (1) and positioned at one side of the transmission shaft bracket (221), the output end of the driving motor (223) is fixedly connected with the central shaft of the transmission shaft bracket (221), the encoder (224) is fastened to the surface of the driving motor (223), the mounting base (225) is symmetrically fastened to the inner wall of the shell (1) and positioned at one side of the transmission shaft bracket (221), the threaded screw rod (226) is rotationally connected to the inner wall of the mounting base (225), the transmission worm wheel (227) is fixedly connected to the surface of the threaded screw rod (226) and corresponds to the position of the worm section (222), the output end of the driving motor (223) is fixedly connected to the inner wall of the worm section (222) on one side of the threaded sliding seat (222), one end of the transmission sliding seat (228) is connected with one end of the linkage assembly (26), and the driving motor (223) and the encoder (224) are electrically connected with the microprocessor (213).

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