CN220369708U - Medical instrument storage intelligent cabinet based on Internet of things - Google Patents

Abstract

The utility model discloses an intelligent medical instrument storage cabinet based on the Internet of things, which comprises a cabinet body and a control unit, wherein the cabinet body comprises a normal temperature storage cavity, a low temperature storage cavity, a refrigeration storage cavity and a drying storage cavity, a plurality of transverse plates are arranged in each cavity, strip-shaped holes are formed in two ends of each transverse plate, connecting rods are arranged in the strip-shaped holes, the front ends of the connecting rods are provided with limiting columns, the rear ends of the connecting rods extend to the rear side plate of the intelligent cabinet, pull rings are arranged on the limiting columns, the front side of the cavity is provided with a baffle plate which is vertically arranged, the baffle plate is connected with the front end, the middle part and the rear end of each transverse plate, and a plurality of positioning holes which are equidistantly arranged are formed in the baffle plate; the control unit comprises a controller module, a touch display module connected with the controller module, a code scanning identification module, a temperature and humidity regulation module and a monitoring module. According to the medical instrument storage intelligent cabinet based on the Internet of things, through the arrangement of the components, the whole cabinet body is simple in structure, the transverse plates can move up and down in the cavities, and the size of each cavity is adjusted so as to meet the use requirements.

Description

Medical instrument storage intelligent cabinet based on Internet of things

Technical Field

The utility model relates to the technical field of medical intelligent cabinets, in particular to a medical instrument storage intelligent cabinet based on the Internet of things.

Background

Medical devices, means instruments, devices, appliances, in vitro diagnostic reagents and calibrators, materials and other similar or related items for direct or indirect use on the human body, including the required computer software; its effectiveness is obtained mainly by physical means, not by pharmacological, immunological or metabolic means, or by the aid of these means; the purpose is that: diagnosis, prevention, monitoring, treatment, or alleviation of a disease; diagnosis, monitoring, treatment, alleviation or functional compensation of lesions; examination, substitution, regulation or support of physiological structures or physiological processes; support or maintenance of life; controlling pregnancy; by examining a sample from a human body, information is provided for medical or diagnostic purposes.

The utility model discloses a medical instrument storage treatment cabinet based on the Internet of things, which comprises a cabinet body and a controller module, wherein the controller module is in communication connection with an HIS system; the cabinet body is provided with a normal temperature storage cavity, a cool storage cavity, a cold storage cavity and a dry storage cavity, the side wall of the cabinet body is provided with four expansion holes, the four expansion holes are respectively communicated with the normal temperature storage cavity, the cool storage cavity, the cold storage cavity and the dry storage cavity in a one-to-one correspondence manner, the cabinet body is provided with four sealing plates for sealing the expansion holes, the four sealing plates are all provided with clamping plates along the circumferential direction of the sealing plates, and the clamping plates are connected with the cabinet body through screws; the hole walls of the four expansion holes are sequentially provided with a first step surface for abutting against the clamping plate and a second step surface for abutting against the sealing plate from outside to inside, and a first sealing adhesive tape is arranged at the abutting part of the second step surface and the sealing plate; an annular accommodating cavity is formed between the second step surface and the side wall of the sealing plate, an annular connecting sleeve and an annular connecting plate are arranged in the annular accommodating cavity, one end of the annular connecting sleeve is fixedly connected with the second step surface, and the other end of the annular connecting sleeve is fixedly connected with the annular connecting plate; the annular connecting sleeve is made of soft materials and comprises a rubber layer and a cloth layer which are sequentially arranged from inside to outside; when the closing plate is arranged on the cabinet body, the connecting sleeve is placed in the annular accommodating cavity in a folded state; the annular connecting plate is provided with a second sealing adhesive tape along the circumferential direction of one end far away from the cabinet body, the outer side wall of the annular connecting plate is provided with a plurality of locking rods along the circumferential direction of the annular connecting plate, the cross sections of the locking rods are semicircular, the tops of the locking rods are provided with semicircular locking blocks, and the cross section area of each semicircular locking block is larger than that of each locking rod; the sealing plate is provided with a placing groove, a plurality of locking pieces are placed in the placing groove, each locking piece comprises a locking plate and two rotating rods, the two rotating rods are located at two ends of the locking plate, and the locking plate is provided with a locking hole for locking the locking rods. The technical scheme solves the problems of controlling and adjusting the temperature and humidity in each storage cavity, expanding and combining the cabinet body and using medical inclined storage requirements of different volume specifications, and has the defects and needs to be improved.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art, provides an intelligent medical instrument storage cabinet based on the Internet of things, and aims to solve the technical problems that the cabinet body of the existing intelligent storage cabinet is complex in structure and high in use cost.

The technical scheme of the utility model is as follows: the utility model provides a medical instrument stores intelligent cabinet based on thing networking, including the cabinet body and control unit, wherein, the cabinet body is including normal atmospheric temperature storage chamber, low temperature storage chamber, cold-stored storage chamber and four cavitys in dry storage chamber, every be equipped with the diaphragm that a plurality of divide into a plurality of cavitys with it in the cavity, the both ends of diaphragm are equipped with the bar hole, be equipped with the connecting rod in the bar hole, the connecting rod front end is equipped with spacing post, and the rear end extends to on the posterior lateral plate of intelligent cabinet, be equipped with the pull ring on the spacing post, the front side of cavity is equipped with the baffle of vertical setting, the baffle is connected with front end, middle part and the rear end of diaphragm, be equipped with a plurality of equidistance range's locating hole on the baffle;

the control unit comprises a controller module, a touch display module connected with the controller module, a code scanning identification module, a temperature and humidity regulation module and a monitoring module.

Preferably, the rear end of the strip-shaped hole is provided with a limiting hole, a limiting block and a spring are arranged in the limiting hole, and the limiting block and the spring are sleeved on the connecting rod.

Preferably, a limit groove corresponding to the positioning hole is formed in the rear side plate of the intelligent cabinet, and the rear end of the connecting rod is inserted into the limit groove.

Preferably, the two sides of the limit post are provided with connecting lugs, and the connecting lugs are hinged with the pull ring.

Preferably, the baffle includes left baffle, right baffle and middle part baffle, the locating hole on left baffle and the right baffle passes through the bar groove and connects as an organic wholely, be equipped with a plurality of screw on the middle part baffle.

Preferably, the transverse plate is provided with a tray, and the tray is movably connected or fixedly connected with the transverse plate.

Preferably, the cabinet body surface is equipped with the touch display screen of being connected with touch display module, with sweep the identity authentication device that the sign indicating number recognition module is connected, be equipped with the camera of being connected with the monitoring module on the cabinet body, the internal temperature controller and the humidity controller who is connected with temperature and humidity control module that are equipped with of cabinet.

Preferably, the identity authentication device comprises a fingerprint unlocking component, a face recognition component, an IC card reading component and a password authentication component.

By adopting the scheme, the medical instrument storage intelligent cabinet based on the Internet of things mainly comprises a cabinet body and a control unit, wherein the cabinet body comprises a normal temperature storage cavity, a low temperature storage cavity, a refrigeration storage cavity and a drying storage cavity, a plurality of transverse plates are arranged in each cavity, strip-shaped holes are formed in two ends of each transverse plate, connecting rods are arranged in the strip-shaped holes, the front ends of the connecting rods are provided with limiting columns, the rear ends of the connecting rods extend to the rear side plate of the intelligent cabinet, pull rings are arranged on the limiting columns, the front sides of the cavities are provided with baffle plates which are vertically arranged, the baffle plates are connected with the front ends, the middle parts and the rear ends of the transverse plates, and a plurality of positioning holes which are arranged at equal intervals are formed in the baffle plates; the transverse plate can move up and down in the cavity, so that the volume of each cavity can be adjusted, and the whole cabinet body is simple in structure.

Drawings

FIG. 1 is a schematic structural diagram of a medical instrument storage intelligent cabinet based on the Internet of things;

FIG. 2 is a schematic structural view of one cavity of the intelligent medical instrument storage cabinet based on the Internet of things;

FIG. 3 is a schematic diagram of the structure of a cross plate and a connecting rod of the intelligent medical instrument storage cabinet based on the Internet of things;

FIG. 4 is a schematic diagram of a cross-street structure of a connecting rod of an intelligent cabinet for storing medical instruments based on the Internet of things;

fig. 5 is a block diagram of a control unit of a medical instrument storage intelligent cabinet based on the internet of things.

In the figure: 1. a cabinet body; 10. a limit groove; 11. a normal temperature storage cavity; 12. a low temperature storage chamber; 13. a refrigerated storage chamber; 14. a dry storage chamber; 15. a cross plate; 151. a bar-shaped hole; 152. a connecting rod; 153. a limit column; 154. a pull ring; 155. a limiting hole; 156. a limiting block; 157. a spring; 158. a connecting lug; 16. a baffle; 161. positioning holes; 162. a left baffle; 163. a right baffle; 164. a middle baffle; 165. a strip groove; 166. a screw hole; 17. a tray; 18. touching the display screen; 19. an identity authentication device; 191. fingerprint unlocking component; 192. a face recognition component; 193; an IC card reading assembly; 194. a password authentication component; 110. a camera; 111. a temperature controller; 112. a humidity controller; 2. a control unit; 21. a controller module; 22. a touch display module; a code scanning identification module 23; 24. a temperature and humidity adjusting module; 25. and a monitoring module.

Detailed Description

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

The utility model provides an intelligent medical instrument storage cabinet based on the Internet of things, which comprises a cabinet body 1 and a control unit 2, wherein the cabinet body 1 comprises a normal temperature storage cavity 11, a low temperature storage cavity 12, a refrigeration storage cavity 13 and a drying storage cavity 14, each cavity is internally provided with a plurality of transverse plates 15 for dividing the cabinet into a plurality of cavities, both ends of each transverse plate 15 are provided with strip-shaped holes 151, connecting rods 152 are arranged in the strip-shaped holes 151, the front ends of the connecting rods 152 are provided with limiting columns 153, the rear ends of the connecting rods extend to the rear side plate of the intelligent cabinet, the limiting columns 153 are provided with pull rings 154, the front sides of the cavities are provided with baffle plates 16 which are vertically arranged, the baffle plates 16 are connected with the front ends, the middle parts and the rear ends of the transverse plates 15, and the baffle plates 16 are provided with a plurality of positioning holes 161 which are arranged at equal intervals;

the control unit 2 comprises a controller module 21, a touch display module 22 connected with the controller module, a code scanning identification module 23, a temperature and humidity regulation module 24 and a monitoring module 25. The control unit 2 is used for controlling the hardware operation on the control unit and transmitting data to the server; the control unit 2 mainly comprises a controller module 21, a touch screen display module 22, a code scanning identification module 23, a temperature and humidity adjustment module 24 and a monitoring module 25, wherein the controller module 21 plays a role in controlling the intelligent cabinet to open and close; the touch display module 22 is used for interacting with a touch display screen on the intelligent cabinet; the code scanning identification module 23 is used for identifying the identity information of the staff and collecting and recording the information of the medical instruments, so that the traceability management of the medical instruments is facilitated; the temperature and humidity adjusting module 24 is used for adjusting the temperature and humidity of each storage cavity and providing a good storage environment; the monitoring module 25 is connected with the camera and is used for monitoring the surrounding environment of the intelligent cabinet.

The utility model relates to an intelligent medical instrument storage cabinet based on the Internet of things, which mainly comprises a hardware part cabinet body 1 and a software part control unit 2, wherein the control unit 2 is connected with the cabinet body 1, the cabinet body 1 comprises four cavities, namely a normal temperature storage cavity 11, a low temperature storage cavity 12, a refrigeration storage cavity 13 and a drying storage cavity 14, the temperature range of the normal temperature storage cavity 11 is 0-40 degrees, the temperature range of the low temperature storage cavity 12 is 0-20 degrees, the temperature range of the refrigeration storage cavity 13 is 2-10 degrees, and a dehumidifier is arranged in the drying storage cavity 14 and is used for dehumidifying medical instruments in the cabinet body to keep the medical instruments dry.

The interior of each cavity is divided into a plurality of chambers by a transverse plate 15, and each chamber can store the same or different medical instruments, wherein the transverse plate 15 can move in the cavity to change the size of each chamber; by arranging the strip-shaped holes 151 at two ends, namely in the width direction, of the transverse plate 15 and arranging the connecting rods 152 in the strip-shaped holes 151, the front ends of the connecting rods 152 are provided with limit posts 153, and the rear ends of the connecting rods 152 extend to the rear side plate of the intelligent cabinet, so that the transverse plate 15 can be arranged in the cavity through the connecting rods 152; through set up pull ring 154 on spacing post 153, the front side of cavity sets up baffle 16, and baffle 16 is connected with the front end, middle part and the rear end of diaphragm 15, is equipped with a plurality of equidistance range's locating hole 161 on the baffle 16, guarantees that diaphragm 15 can reciprocate under the interact between connecting rod 152, baffle 16, locating hole 161, reaches the effect of adjustment cavity size.

When the transverse plate 15 is specifically adjusted, the pull ring 154 is pulled first to enable the rear end of the connecting rod 152 connected with the transverse plate to be separated from the rear side plate of the intelligent cabinet, then the transverse plate 15 and the connecting rod 152 are moved upwards or downwards to reach the proper positioning hole 161, and then the connecting rod 152 is pushed inwards to enable the rear end of the connecting rod to be inserted into the rear side plate of the intelligent cabinet to be fixed, so that the transverse plate 15 moves up and down integrally. It should be noted that, the diameter of the spacing post 153 at the front end of the connecting rod 152 is larger than the diameter of the rear end, the aperture of the positioning hole 161 is matched with the outer diameter of the spacing post 153, the pull ring 154 is arranged at the side edge of the spacing post 153 and is in a semicircular arc shape, so that the connecting rod 152 is conveniently pulled, and the connecting rod 152 is detached from or inserted into the rear side plate.

In a preferred embodiment, referring to fig. 3 and 4, a limit hole 155 is provided at the rear end of the bar hole 151 of the medical instrument storage intelligent cabinet, a limit block 156 and a spring 157 are provided in the limit hole 155, and the limit block 156 and the spring 157 are sleeved on the connecting rod 152. The rear side plate is provided with a limit groove 10 corresponding to the positioning hole 161, and the rear end of the connecting rod 152 is inserted into the limit groove 10. The spacing post 153 both sides are equipped with engaging lugs 158, and engaging lugs 158 are articulated with pull ring 154.

By arranging the limiting hole 155 at the rear end of the bar-shaped hole 151, arranging the limiting block 156 and the spring 157 in the limiting hole 155, pulling the front end of the connecting rod 152 during installation, pulling the rear end of the connecting rod 152 into the limiting hole 155, and then moving the connecting rod 152, at the moment, compressing the spring 157 in the limiting hole 155, and loosening the connecting rod 152 after the rear end of the connecting rod 152 is opposite to the Ji Xianwei groove 10, so that the rear end of the connecting rod 152 is inserted into the limiting groove 10, the transverse plate is ensured to be fixed in the storage cavity through the connecting rod 152, and the position of the transverse plate can be moved according to the requirement; through set up engaging lug 158 in spacing post 153 both sides, make engaging lug and pull ring 154 articulated, guarantee convenient pulling pull ring 154, conveniently pull connecting rod 152 removal promptly.

In a preferred embodiment, referring to fig. 2, the baffle 16 of the medical instrument storage intelligent cabinet includes a left baffle 162, a right baffle 163 and a middle baffle 164, the positioning holes 161 on the left baffle 162 and the right baffle 163 are connected into a whole through a strip groove 165, and a plurality of screw holes 166 are formed in the middle baffle 164. Baffle 16 mainly plays the effect of installation, spacing diaphragm, and the left side of the front side of every cavity, centre and right all are equipped with left baffle 162, right baffle 163 and middle part baffle 164, and locating hole 161 on baffle 162 and the right baffle 163 pass through bar groove 165 and connect as an organic wholely, and wherein, the width of bar groove 165 is less than the aperture of locating hole 161, and the diameter of connecting rod 152 front end is greater than the diameter of rear end, and connecting rod 152 is convenient for wear to be fixed at the both ends of diaphragm 15. Screw holes 166 are formed in the middle baffle 164 and correspond to positioning holes on two sides, so that the transverse plate 15 is firmly fixed after being installed in the cavity through screws or screw connection.

In a preferred embodiment, referring to fig. 2, a tray 17 is provided on a transverse plate 15 of the medical instrument storage intelligent cabinet, and the tray 17 is movably or fixedly connected with the transverse plate 15. By arranging the tray on the transverse plate 15, the medical instrument tools are placed on the tray 17, and the safety of medical instrument storage is ensured.

In a preferred embodiment, referring to fig. 2, the surface of a cabinet body 1 of the medical apparatus and instrument storage intelligent cabinet is provided with a touch display screen 18 connected with a touch display module 22 and an identity authentication device 19 connected with a code scanning identification module 23, the cabinet body 1 is provided with a camera 110 connected with a monitoring module 25, and a temperature controller 111 and a humidity controller 112 connected with a temperature and humidity adjusting module 24 are arranged in the cabinet body. The identity authentication device 19 includes a fingerprint unlocking component 191, a face recognition component 192, an IC card reading component 193, and a password authentication component 194. The identity authentication device 19 comprises four authentication modes, but is not limited to the four authentication modes, so that personnel identity information for accessing the medical instrument can be identified in multiple directions, and the efficient and orderly management of the access work of the medical instrument is facilitated. The intelligent cabinet for the medical instrument also has the functions of network disconnection and reconnection after network disconnection, data are sent to the system after network disconnection, when the power is supplied again after the power is off, the intelligent cabinet system compares the data before and after the power is off, generates a warehouse entry record and uploads the warehouse entry record to the server as a warehouse entry and exit running water record, and the uploaded record contains marking information.

The foregoing description of the preferred embodiment of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (8)

1. Medical instrument stores intelligent cabinet based on thing networking, including the cabinet body and control unit, its characterized in that: the cabinet body comprises four cavities, namely a normal temperature storage cavity, a low temperature storage cavity, a refrigeration storage cavity and a drying storage cavity, wherein a plurality of transverse plates which divide the cavity into a plurality of cavities are arranged in each cavity, strip-shaped holes are formed in two ends of each transverse plate, connecting rods are arranged in the strip-shaped holes, the front ends of the connecting rods are provided with limiting columns, the rear ends of the connecting rods extend to the rear side plate of the intelligent cabinet, pull rings are arranged on the limiting columns, the front sides of the cavities are provided with baffle plates which are vertically arranged, the baffle plates are connected with the front ends, the middle parts and the rear ends of the transverse plates, and a plurality of positioning holes which are arranged at equal intervals are formed in the baffle plates;

the control unit comprises a controller module, a touch display module connected with the controller module, a code scanning identification module, a temperature and humidity regulation module and a monitoring module.

2. The intelligent cabinet for storing medical instruments based on the internet of things according to claim 1, wherein a limiting hole is formed in the rear end of the strip-shaped hole, a limiting block and a spring are arranged in the limiting hole, and the limiting block and the spring are sleeved on the connecting rod.

3. The intelligent cabinet for storing medical instruments based on the internet of things according to claim 1, wherein a limit groove corresponding to the positioning hole is formed in the rear side plate of the intelligent cabinet, and the rear end of the connecting rod is inserted into the limit groove.

4. The medical instrument storage intelligent cabinet based on the internet of things according to claim 1, wherein connecting lugs are arranged on two sides of the limiting column, and the connecting lugs are hinged with the pull ring.

5. The intelligent cabinet for storing medical instruments based on the Internet of things according to claim 1, wherein the baffle comprises a left baffle, a right baffle and a middle baffle, positioning holes in the left baffle and the right baffle are connected into a whole through a strip groove, and a plurality of screw holes are formed in the middle baffle.

6. The intelligent cabinet for storing medical instruments based on the internet of things according to claim 1, wherein a tray is arranged on the transverse plate and is movably connected or fixedly connected with the transverse plate.

7. The intelligent cabinet for storing medical instruments based on the Internet of things according to claim 1, wherein a touch display screen connected with a touch display module and an identity authentication device connected with a code scanning identification module are arranged on the surface of the cabinet body, a camera connected with a monitoring module is arranged on the cabinet body, and a temperature controller and a humidity controller connected with a temperature and humidity adjusting module are arranged in the cabinet body.

8. The internet of things-based medical instrument storage intelligent cabinet of claim 7, wherein the identity authentication device comprises a fingerprint unlocking component, a face recognition component, an IC card reading component and a password authentication component.