CN221060847U - Intelligent operating room medical treatment combination sideboard - Google Patents

Abstract

The utility model relates to the technical field of medical equipment, and discloses an intelligent operating room medical combined cabinet which comprises a cabinet body, wherein a front cabinet door and a rear cabinet door are arranged on the cabinet body. This intelligent operating room medical treatment combination sideboard is convenient for get through human-computer interaction host computer and puts medical supplies with multiple mode intelligence, reduce personnel's manual information flow of entering through the automatic identification function of first RFID module, reduce work load, improve access efficiency and accuracy, carry out intelligent quick unified the window department of carrying to preceding cabinet door to different medical supplies that different box cell corresponds through electric control module control horizontal rotation device and or chain belt transmission device, avoid medical personnel to take by mistake or mix up and bend to seek, further improve access efficiency and accuracy, avoid medical personnel to be difficult to get fast and deposit the medical supplies of higher position on the combination sideboard because short stature, reach intelligent high-efficient swift accurate classification access and statistical effect.

Description

Intelligent operating room medical treatment combination sideboard

Technical Field

The utility model relates to the technical field of medical equipment, in particular to an intelligent operating room medical combined cabinet.

Background

The operation which is considered to be life-threatening in the shortest time after the illness state is urgent and evaluated by doctors is called emergency operation, the emergency operation is frequently seen in wounds, emergency abdomen, major bleeding, acute infection and the like, a large number of medical articles are needed in the emergency operation process, the medical articles in the operation room of the hospital are generally signed by the department entrepreneurs and nurses at present, and are approved by the entrepreneurs and the yards, and then the medical staff takes goods from the drug warehouse, so that the operation room is generally provided with a medical combination cabinet for storing standby emergency medical materials.

For example, a novel intelligent management cabinet for medical supplies in an operating room with a Chinese patent publication number of CN210072809U has the functions of intelligent identification and statistics in the process of basic medical supplies storage and taking, but different medical staff can be different in placing positions of different medical supplies, so that medicine taking is disordered and even confused; when accessing specific medical materials, nurses are required to constantly check the materials with different heights on the combined cabinet, and the bending time is long, the times are more, so that the labor intensity is high; for the medical supplies of high position on the short nurse of stature difficult to quick get put-save combination sideboard, if highly reduce the combination sideboard then lead to its quantity of storing medical supplies very big reduction to cause the combination sideboard to deposit the little and occupation space area of supplies, so put forward an intelligent operating room medical treatment combination sideboard and solve above-mentioned problem.

Disclosure of utility model

(One) solving the technical problems

Aiming at the defects of the prior art, the utility model provides an intelligent operating room medical treatment combined cabinet which has the advantages of intelligent monitoring and accessing medical treatment materials, avoiding medical staff from taking wrong or confusing and bending down for searching, automatically adjusting the access height, avoiding the relative storage height from being limited by the height of the taking and placing staff, having large access quantity, occupying small space area and the like, solving the problems that the novel operating room medical treatment consumable intelligent management cabinet with the Chinese patent publication number of CN210072809U has the functions of intelligent identification and statistics in the basic medical treatment material taking and storing process, but different medical staff can be different in the placing position of different medical treatment materials, and can lead to medicine taking wrong or even confusing; when accessing specific medical materials, nurses are required to constantly check the materials with different heights on the combined cabinet, and the bending time is long, the times are more, so that the labor intensity is high; to the medical supplies of short nurse's difficult quick getting of stature storage higher position on the combination sideboard, if reduce the height of combination sideboard then lead to its quantity of storing medical supplies very big reduction to cause the combination sideboard to deposit the problem that the material is few and occupation space area is big.

(II) technical scheme

In order to achieve the above purpose, the present utility model provides the following technical solutions: the intelligent operating room medical combined cabinet comprises a cabinet body, wherein a front cabinet door and a rear cabinet door are arranged on the cabinet body, windows are formed in the front cabinet door and the rear cabinet door, a horizontal rotating device is arranged in the cabinet body, chain belt transmission devices are vertically arranged at the movable end of the horizontal rotating device, the number of the chain belt transmission devices is not less than two, a plurality of box cells are equidistantly hinged to the movable end of the chain belt transmission device by taking a rotation central shaft of the horizontal rotating device as a central line, belt transmission devices are horizontally arranged at the bottom of the inner wall of each box cell, a man-machine interaction host is arranged on the front cabinet door or the cabinet body and positioned at one side of the window, and the man-machine interaction host is electrically connected with the horizontal rotating device, the chain belt transmission devices and the belt transmission devices;

The man-machine interaction host is provided with a touch display module, a sound control module, a first RFID module and an electric control module;

The touch display module is used for displaying the result of the first RFID module for identifying the medical supplies in the cabinet body and inputting the information of the medical supplies to be fetched in a touch mode;

The sound control module is used for inputting information of medical supplies to be fetched in a sound control mode;

The first RFID module is used for identifying medical materials which are correspondingly put in or taken out of each cell unit and transmitting the access record to the touch display module in real time;

The electronic control module is used for correspondingly controlling the horizontal rotating device and/or the chain belt transmission device to convey medical materials corresponding to the box lattice units to the window of the front cabinet door according to the information input by the touch display module or the sound control module; and when the device is unmanned for a long time, the device is used for controlling the horizontal rotating device and/or the chain belt conveying device to convey the empty box lattice units to the window of the rear cabinet door.

Preferably, the medical material feeding and conveying device further comprises a feeding and conveying device, wherein the feeding and conveying device is arranged at a window of the rear cabinet door and is in communication connection with the man-machine interaction host, and the feeding and conveying device is used for controlling medical materials to be conveyed to the belt conveying device on the empty box lattice unit in cooperation with the man-machine interaction host.

Preferably, the machine further comprises a baffle, a driving device and a sealing cover, wherein the driving device is arranged on the front cabinet door and is electrically connected with the man-machine interaction host, the baffle is arranged at the movable end of the driving device, the driving device is used for driving the baffle to selectively seal a window on the front cabinet door by matching with the man-machine interaction host, and the sealing cover is arranged on the periphery of the feeding transmission device and seals the window on the rear cabinet door.

Preferably, the driving device comprises a servo motor, a gear and a toothed plate, wherein the servo motor is arranged on the front cabinet door and is electrically connected with the man-machine interaction host, the gear is arranged on an output shaft of the servo motor, and the toothed plate meshed with the gear is arranged at one end of the front cabinet door, which is positioned at the baffle plate.

Preferably, the number of the cabinet bodies is not less than two, the feeding transmission device comprises a main transmission belt, auxiliary transmission belts, a sorting mechanism and a second RFID module, the auxiliary transmission belts with the number not less than two are vertically arranged along the transmission direction of the main transmission belt, the blanking openings of the auxiliary transmission belts in each group extend to the window of the rear cabinet door on each cabinet body respectively, the sorting mechanism is arranged on one side, far away from the auxiliary transmission belts, of the main transmission belt, the second RFID module is arranged on the sorting mechanism, the main transmission belt, the auxiliary transmission belts, the sorting mechanism and the second RFID module are electrically connected with a man-machine interaction host, and the man-machine interaction host corresponding to each cabinet body is used for correspondingly controlling the sorting mechanism to distribute medical materials on the main transmission belt onto the auxiliary transmission belt and transmit the medical materials into the corresponding cabinet bodies according to medical material demands.

Preferably, the sorting mechanism comprises an electric push rod and a push plate, wherein the electric push rod is vertically arranged on one side of the main conveying belt away from the auxiliary conveying belt, and the push plate is arranged at the movable end of the electric push rod.

Preferably, the horizontal rotating device comprises a first stepping motor, a rotating frame and a bearing seat, wherein the first stepping motor is arranged on the cabinet body, the rotating frame is vertically arranged in the cabinet body in a rotating mode, one end of the rotating frame is in transmission connection with an output shaft of the first stepping motor, and the bearing seat is arranged on the outer wall of the cabinet body and located on the rotating frame.

Preferably, the horizontal rotating device further comprises supporting rollers, the rotating frame is provided with supporting rollers propped against the bottom of the inner wall of the cabinet body, the number of the supporting rollers is not less than three, and the plurality of supporting rollers are distributed on the rotating frame in a circular array by taking the central line of the rotating frame as an axis.

Preferably, the support roller is a ball castor.

Preferably, the chain belt transmission device comprises a second stepping motor, a driving wheel, driven wheels and a chain belt, wherein the second stepping motor is arranged on a rotating frame, the driving wheel is arranged on an output shaft of the second stepping motor, the driven wheels are arranged on the rotating frame at intervals in the vertical direction relative to the driving wheel, the driven wheels are connected with the driving wheel in a transmission manner through the chain belt, a plurality of box cells are hinged to the chain belt at equal intervals, and the gravity centers of the box cells are always located below the hinge points of the box cells and the chain belt.

(III) beneficial effects

Compared with the prior art, the utility model provides an intelligent operating room medical combined cabinet, which has the following beneficial effects:

This intelligent operating room medical treatment sectional cabinet is convenient for get with multiple mode through the touch display module or the acoustic control module of human-computer interaction host computer and puts medical supplies fast intelligence to reduce personnel's manual information flow of entering through the automatic identification function of first RFID module, reduce work load, improve access efficiency and precision, rethread electronic control module control horizontal rotation device and or chain belt transmission device carry out the window department to the preceding cabinet door to the different medical supplies that different box cell corresponds fast unification, and then avoid medical personnel to take wrong or mix up and the look for of bowing, further improve access efficiency and precision, adopt horizontal rotation device and or chain belt transmission device intelligent control to adjust the spatial position of different box cell, avoid medical personnel to be difficult to get fast to put the medical supplies of higher position on the sectional cabinet because short and small, further improved the convenience of use of this medical sectional cabinet, and greatly utilize the high space of the cabinet body and improve the memory space of this medical sectional cabinet and reduce occupation space area, reach intelligent high-efficient fast accurate classification access and statistics effect.

Drawings

FIG. 1 is a sectional view of a medical combination sideboard structure for an intelligent operating room according to the present utility model;

Fig. 2 is a block diagram of a medical combined cabinet for an intelligent operating room according to the present utility model;

fig. 3 is a top view of a medical combined cabinet structure for an intelligent operating room.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments. 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.

Embodiment one: referring to fig. 1-2, an intelligent operating room medical combined cabinet comprises a cabinet body 1, a front cabinet door 2 and a rear cabinet door 3 are arranged on the cabinet body 1, windows 4 are respectively arranged on the front cabinet door 2 and the rear cabinet door 3, a horizontal rotating device 5 is arranged in the cabinet body 1, chain belt transmission devices 6 are vertically arranged on the movable ends of the horizontal rotating device 5, the number of the chain belt transmission devices 6 is not less than two groups, a plurality of groups of chain belt transmission devices 6 are distributed in a circular array by taking the rotation central shaft of the horizontal rotating device 5 as a central line, a plurality of box cells 7 are equidistantly hinged on the movable ends of the chain belt transmission devices 6, one side of each box cell 7 close to the side wall of the cabinet body 1 is in an open type design, so as to facilitate the up-down material, the round array distribution and the vertical arrangement are formed on the horizontal rotating device 5 through a plurality of groups of chain belt conveying devices 6, thereby ensuring that in the process that the horizontal rotating device 5 drives the chain belt conveying devices 6 to rotate, the openings of the box lattice units 7 on each group of chain belt conveying devices 6 can be opposite to the window 4 on the front cabinet door 2 or the rear cabinet door 3, so as to realize the effect of conveniently and accurately accessing medical materials, the bottom of the inner wall of each box lattice unit 7 is horizontally provided with a belt conveying device 8, the side, which is far away from the window 4, of each box lattice unit 7 on the conveying device 6 is provided with a limiting plate c, the limiting plate c is used for limiting the box lattice units 7 on the conveying device 6 in cooperation with the front cabinet door 2 and the rear cabinet door 3, further, the belt transmission device 8 is ensured to avoid the situation that medical supplies are unstable and drop due to shaking of the box lattice unit 7 relative to the cabinet body 1 in the driving process, a man-machine interaction host 9 is arranged on the front cabinet door 2 or the cabinet body 1 and positioned on one side of the window 4, and the man-machine interaction host 9 is electrically connected with the horizontal rotation device 5, the chain belt transmission device 6 and the belt transmission device 8; the man-machine interaction host 9 is provided with a touch display module 91, a sound control module 92, a first RFID module 93 and an electric control module 94; the touch display module 91 is configured to display a result of the first RFID module 93 identifying the medical material in the cabinet 1, and is configured to touch input information of the medical material to be fetched; the sound control module 92 is used for inputting information of medical supplies to be fetched in a sound control mode; the first RFID module 93 is configured to identify medical materials that are correspondingly put into or taken out from each of the cells 7 and transmit the access record to the touch display module 91 in real time; the electronic control module 94 is used for correspondingly controlling the horizontal rotating device 5 and/or the chain belt transmission device 6 to convey medical materials corresponding to the cell units 7 to the window 4 of the front cabinet door 2 according to the information input by the touch display module 91 or the sound control module 92; when the medical combined cabinet is unmanned for a long time, the electronic control module 94 is used for controlling the horizontal rotating device 5 and/or the chain belt transmission device 6 to transmit the empty box lattice units 7 to the window 4 of the rear cabinet door 3, so that medical staff can conveniently and timely supplement medical materials, long-time waiting of the medical staff during the supplement of the medical materials is avoided, and each box lattice unit 7 in the medical combined cabinet can independently store different medical materials, so that the situations that the storage efficiency is low and the like are avoided because the medical staff need to wait for a long time during the supplement of the medical materials due to the fact that a single box lattice unit 7 can only correspondingly store the medical materials with specific labels are avoided; when medical staff stores medical materials, RFID labels are arranged on the medical materials in advance, different medical materials are sequentially placed into different empty box cells 7 at the window 4 of the rear cabinet door 3 at intervals by manual or automatic operation, the medical materials placed into the cabinet body 1 are identified by the first RFID module 93 and are uniformly conveyed to the touch display module 91 together with the position information of the box cells 7 containing the medical materials to be displayed, so that the effects of classifying, storing, intelligently identifying and counting the different medical materials corresponding to the different box cells 7 are realized, when the medical staff in an operating room needs to take out the medical materials, the medical staff only need to manually input or voice input the information of the medical materials to be taken through the touch display module 91 or the voice control module 92 of the human-computer interaction host 9, the electronic control module 94 correspondingly controls the horizontal rotating device 5 and/or the chain belt transmission device 6 to convey the medical supplies corresponding to the lattice cells 7 to the window 4 of the front cabinet door 2 according to the information input by the touch display module 91 or the sound control module 92, when a medical staff takes out the corresponding medical supplies from the lattice cells 7, the first RFID module 93 secondarily identifies the information of the medical supplies and transmits the data to the touch display module 91 for display, so that the manual input information flow of the staff is reduced, the workload is reduced, the access efficiency and the accuracy are improved, the intelligent, efficient, rapid and accurate classified access and statistics effect is achieved, meanwhile, because the horizontal rotating device 5 and the chain belt transmission device 6 are adopted to intelligently, rapidly and uniformly convey different medical supplies corresponding to different lattice cells 7 to the window of the front cabinet door, thereby avoiding the medical staff from taking and placing medical materials by mistake or confusion and bending down for searching, if and only if the quantity of the medical materials in the corresponding lattice cells 7 taken out by the medical staff is inconsistent with the actual input information to be taken, the voice control module 92 of the man-machine interaction host 9 carries out early warning reminding, further improving the access efficiency and the accuracy, simultaneously adopting the horizontal rotation device 5 and the chain belt transmission device 6 to cooperate with the intelligent control of the man-machine interaction host 9 to adjust the space positions of different lattice cells 7, avoiding the medical staff from being difficult to quickly take and place the medical materials at the higher position on the combined cabinet because of short stature, further improving the use convenience of the combined cabinet, and greatly utilize the high space of the cabinet body and increase the memory space of this medical combination cabinet and reduce the whole occupation space area of this medical combination cabinet, be favorable to expanding the horizontal memory space of single cell unit 7 through the belt transmission device 8 in the cell unit 7 simultaneously to make medical personnel access in-process more convenient and swift, reach intelligent high-efficient swift accurate categorised access and statistical effect.

Preferably, the device also comprises a feeding transmission device 10, wherein the feeding transmission device 10 is arranged at the window 4 of the rear cabinet door 3, the feeding transmission device 10 is in communication connection with the man-machine interaction host 9, and the feeding transmission device 10 is used for controlling different medical materials to be transmitted to the belt transmission device 8 on the different empty box cells 7 by matching with the man-machine interaction host 9; the electronic control module 94 on the machine interaction host 9 is used for controlling the feeding transmission device 10 to automatically feed and store medical materials, so that when the electronic control module 94 is used for controlling the horizontal rotation device 5 and the chain belt transmission device 6 to move, the situation that the feeding transmission device 10 automatically feeds different medical materials to store the same box lattice unit 7 to cause mishandling or confusion when medical staff takes out the medical materials due to the fact that the empty box lattice unit 7 at the window 4 of the rear cabinet door 3 is not in place is avoided, or the situation that the feeding transmission device 10 is blocked with the box lattice unit 7 to damage the medical materials due to the fact that the medical materials on the feeding transmission device 10 are out of synchronization with the operation of the horizontal rotation device 5 and/or the chain belt transmission device 6 when the medical materials enter the window 4 of the rear cabinet door 3 is avoided, intelligent corresponding medical material storage is further realized, labor force is saved, and storage accuracy and efficiency are improved.

Preferably, the medical combined cabinet further comprises a baffle 11, a driving device 12 and a sealing cover 13, wherein the driving device 12 is arranged on the front cabinet door 2 and is electrically connected with the man-machine interaction host 9, the baffle 11 is arranged on the movable end of the driving device 12, the driving device 12 is used for driving the baffle 11 to selectively seal the window 4 on the front cabinet door 2 in cooperation with the man-machine interaction host 9, the sealing cover 13 is arranged on the periphery of the feeding transmission device 10 and seals the window 4 on the rear cabinet door 3, the man-machine interaction host 9 controls the baffle 11 to selectively seal the window 4 on the front cabinet door 2 and seal the periphery of the window 4 feeding transmission device 10 on the rear cabinet door 3, and further, the situation that the medical combined cabinet is blocked or causes safety accidents due to the fact that the body parts or foreign matters of medical staff extend into the windows 4 on the front cabinet door 2 and/or the rear cabinet door 3 in the operation process of the intelligent control horizontal rotation device 5 and/or the chain belt transmission device 6 is avoided.

Preferably, the driving device 12 comprises a servo motor 121, a gear 122 and a toothed plate 123, the servo motor 121 is arranged on the front cabinet door 2 and is electrically connected with the man-machine interaction host 9, the gear 122 is arranged on an output shaft of the servo motor 121, the toothed plate 123 meshed with the gear 122 is arranged at one end of the front cabinet door 2, which is positioned on the baffle 11, of the front cabinet door 2, and guide limit grooves corresponding to the toothed plate 123 and the baffle 11 are formed in the front cabinet door 2; when and only if the man-machine interaction host 9 controls the horizontal rotating device 5 and the multiple groups of chain belt conveying devices 6 close to one side of the front cabinet door 2 to stop running, the man-machine interaction host 9 controls the servo motor 121 to drive the gear 122 to rotate forwards through the electric control module 94, the gear 122 interacts with the toothed plate 123 and drives the baffle 11 to open with the window 4 on the front cabinet door 2, meanwhile, the man-machine interaction host 9 controls the belt conveying devices 8 to convey and output medical materials in the corresponding box cells 7, so that medical staff can conveniently and efficiently take out the medical materials accurately, when the medical staff takes out the medical materials in the corresponding quantity, the man-machine interaction host 9 controls the servo motor 121 to drive the gear 122 to rotate reversely through the electric control module 94, and then the gear 122 and the toothed plate 123 drive the baffle 11 to seal with the window 4 on the front cabinet door 2, and the situations of safety accidents or blocking and damage and the like caused in the running process of the horizontal rotating device 5 and the chain belt conveying devices 6 are effectively prevented.

It should be noted that, in the above embodiment, the driving device 12 uses the servo motor 121, the gear 122 and the toothed plate 123 to cooperate with the driving baffle 11 to selectively seal the window 4 on the front cabinet door 2, and may also use the electric push rod or other linear modules to drive, so long as it is ensured that the window 4 on the front cabinet door 2 can be selectively sealed in cooperation with the man-machine interaction host 9.

Referring to fig. 1-3, according to the actual needs of a hospital, the number of the cabinet bodies 1 may be not less than two, for example, different cabinet bodies 1 are respectively disposed in different operating rooms, specifically, the feeding and conveying device 10 includes a main conveying belt 101, an auxiliary conveying belt 102, a sorting mechanism 103 and a second RFID module 104, at least two groups of auxiliary conveying belts 102 are vertically disposed along the conveying direction of the main conveying belt 101, the discharging opening of each group of auxiliary conveying belts 102 extends to the window 4 of the rear cabinet door 3 on each cabinet body 1, the sorting mechanism 103 is disposed on one side of the main conveying belt 101 away from each group of auxiliary conveying belts 102, the second RFID module 104 is disposed on the sorting mechanism 103, the main conveying belt 101, the auxiliary conveying belt 102, the sorting mechanism 103 and the second RFID module 104 are all electrically connected with the man-machine interaction host 9, the corresponding man-machine interaction host 9 on each cabinet body 1 is used for correspondingly controlling the sorting mechanism 103 to distribute medical materials on the main conveying belt 101 to the auxiliary conveying belt 102 according to medical material requirements and to convey the medical materials into the corresponding cabinet body 1, different medical materials of different operating rooms are sequentially placed on the main conveying belt 101 at uniform intervals through a drug warehouse manager, and when the different medical materials run to the sorting mechanism 103, the second RFID module 104 is used for identifying and transmitting identification information to the man-machine interaction host 9 on the corresponding cabinet body 1; ① If the identification information of the second RFID module 104 is consistent with the information of the medical supplies required to be supplemented by the man-machine interaction host 9 on the corresponding cabinet 1, the sorting mechanism 103 drives the corresponding medical supplies to operate on the auxiliary transmission belt 102 connected with the window 4 of the rear cabinet door 3 of the corresponding cabinet 1, and the auxiliary transmission belt 102 is matched with the man-machine interaction host 9 on the corresponding cabinet 1 to correspondingly convey the medical supplies to the empty box cells 7 on the corresponding chain belt transmission device 6; ② If the identification information of the second RFID module 104 is inconsistent with the information of the medical supplies required to be supplemented by the man-machine interaction host 9 on the corresponding cabinet 1, the main transmission belt 101 continues to drive the medical supplies to continue to be transmitted along the main transmission belt 101 until the second RFID module 104 at the corresponding cabinet 1 corresponding to the medical supplies is required, so that intelligent efficient and accurate distribution of the medical supplies of different operating rooms and different cabinets 1 is realized.

Preferably, specifically, the sorting mechanism 103 includes an electric putter a and a push plate b, the electric putter a is relatively vertically arranged on one side of the main transmission belt 101 away from the auxiliary transmission belt 102, the push plate b is arranged on the movable end of the electric putter a, if and only if the identification information of the corresponding second RFID module 104 on the main transmission belt 101 is consistent with the information of the medical supplies required to be supplemented by the man-machine interaction host 9 on the corresponding cabinet body 1, the corresponding man-machine interaction host 9 extends through controlling the electric putter a on the corresponding sorting mechanism 103, the electric putter a transmits the corresponding medical supplies to the corresponding auxiliary transmission belt 102 through the push plate b, and the corresponding medical supplies are correspondingly transmitted to the empty box lattice units 7 on the corresponding cabinet body 1 through the auxiliary transmission belt 102 in cooperation with the man-machine interaction host 9 on the corresponding cabinet body 6, so that intelligent efficient and accurate distribution of the medical supplies of different operating rooms and different cabinet bodies 1 is realized.

Preferably, the horizontal rotating device 5 comprises a first stepping motor 51, a rotating frame 52 and a bearing seat 53, the first stepping motor 51 is arranged on the cabinet body 1 and is electrically connected with the electric control module 94, the rotating frame 52 is vertically arranged in the cabinet body 1 in a rotating mode, one end of the rotating frame 52 is in transmission connection with an output shaft of the first stepping motor 51, the bearing seat 53 is arranged on the outer wall of the rotating frame 52 in the cabinet body 1, the electric control module 94 on the man-machine interaction host 9 is used for controlling the first stepping motor 51 to drive the rotating frame 52 to positively rotate or reversely rotate, so that the horizontal space positions of different chain belt conveying devices 6 and box cells 7 in the cabinet body 1 are adjusted, the horizontal angle alignment of the box cells 7 on the different chain belt conveying devices 6 relative to the window 4 is ensured, and the medical material is prevented from being damaged or the access efficiency is prevented from being influenced due to the angle errors in the access or the process.

Preferably, the horizontal rotating device 5 further comprises supporting rollers 54, the rotating frame 52 is provided with the supporting rollers 54 propped against the bottom of the inner wall of the cabinet body 1, the number of the supporting rollers 54 is not less than three, the plurality of supporting rollers 54 are distributed on the rotating frame 52 in a circular array by taking the central line of the rotating frame 52 as an axis, and the rotating frame 52 is stably supported, namely limited, by the supporting rollers 54 in cooperation with the bearing seats 53, so that stable transmission of the rotating frame 52, different chain belt transmission devices 6 and a plurality of box cells 7 on the rotating frame is ensured, and the condition that the service life and the transmission efficiency are seriously influenced by local abrasion caused by shaking or uneven supporting stress in the operation process of the horizontal rotating device 5 is avoided.

Preferably, the supporting roller 54 is a ball universal wheel, so that the supporting roller 54 can support and limit the rotating frame 52 and the cabinet body 1 effectively in the forward or reverse rotating process of the rotating frame 52, and meanwhile, the reversing rotating resistance of the rotating frame 52 is reduced, and the situation that the service life and the transmission efficiency are seriously affected by local abrasion in the reversing process of the horizontal rotating device 5 is avoided.

Preferably, the chain belt transmission device 6 comprises a second stepping motor 61, a driving wheel 62, driven wheels 63 and a chain belt 64, wherein the second stepping motor 61 is arranged on the cabinet body 1 and is electrically connected with the electric control module 94, a limiting plate c is arranged on the rotating frame 52, the driving wheel 62 is arranged on an output shaft of the second stepping motor 61, the driven wheels 63 are arranged on the rotating frame 52 at intervals in the vertical direction relative to the driving wheel 62, the driven wheels 63 are in transmission connection with the driving wheel 62 through the chain belt 64, a plurality of grid cells 7 are hinged on the chain belt 64 at equal intervals, the grid cells 7 are hinged with the chain belt 64 on the chain belt transmission device 6, and the gravity center of the grid cells 7 is always positioned below the hinging point of the grid cells 7 and the chain belt 64, so that the inner wall bottom of the grid cells 7 is always kept horizontally in the lifting process of the grid cells 7, and medical supplies are prevented from falling down caused by shaking in the lifting process of the grid cells 7; the chain belt transmission device 6 is matched with the second stepping motor 61, the driving wheel 62, the driven wheel 63 and the chain belt 64, so that the length of the chain belt transmission device 6 in the vertical direction is prolonged, the storage capacity of the grid cells 7 on the chain belt 64 in the single cabinet body 1 in the height direction is relatively increased, the occupied area of the cabinet body 1 in the horizontal space is reduced, meanwhile, the driving wheel 62 is controlled to rotate in a timing and quantitative mode through the second stepping motor 61 and the electronic control module 94 on the man-machine interaction host 9, the driving wheel 62 drives different grid cells 7 to lift through the chain belt 64, further, the intelligent control of the height positions of different grid cells 7 by the man-machine interaction host 9 is realized, the fact that different grid cells 7 on the same chain belt transmission device 6 can be aligned relative to the height positions of the windows 4 on the front cabinet door 2 and the rear cabinet door 3 is ensured, and the medical articles are prevented from being damaged or the access efficiency is influenced due to the fact that the height errors exist in the process.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides an intelligent operating room medical treatment combination sideboard, includes the cabinet body (1), is provided with preceding cabinet door (2) and back cabinet door (3) on the cabinet body (1), its characterized in that: windows (4) are formed in the front cabinet door (2) and the rear cabinet door (3), a horizontal rotating device (5) is arranged in the cabinet body (1), chain belt transmission devices (6) are vertically arranged at the movable end of the horizontal rotating device (5), the number of the chain belt transmission devices (6) is not less than two, a plurality of groups of chain belt transmission devices (6) are distributed in a circular array by taking a rotation central shaft of the horizontal rotating device (5) as a central line, a plurality of box cells (7) are equidistantly hinged to the movable end of the chain belt transmission device (6), belt transmission devices (8) are horizontally arranged at the bottom of the inner wall of each box cell (7), a man-machine interaction host (9) is arranged on the front cabinet door (2) or the cabinet body (1) and located on one side of the window (4), and the man-machine interaction host (9) is electrically connected with the horizontal rotating device (5), the chain belt transmission devices (6) and the belt transmission devices (8).

The man-machine interaction host (9) is provided with a touch display module (91), a sound control module (92), a first RFID module (93) and an electric control module (94);

the touch display module (91) is used for displaying the result of the first RFID module (93) for identifying the medical supplies in the cabinet body (1) and inputting the information of the medical supplies to be fetched in a touch mode;

the sound control module (92) is used for inputting information of medical supplies to be fetched in a sound control mode;

The first RFID module (93) is used for identifying medical materials which are correspondingly put in or taken out of each cell unit (7) and transmitting access records to the touch display module (91) in real time;

The electronic control module (94) is used for correspondingly controlling the horizontal rotating device (5) and/or the chain belt transmission device (6) to convey medical materials corresponding to the cell units (7) to the window (4) of the front cabinet door (2) according to the information input by the touch display module (91) or the sound control module (92); when the device is unmanned for a long time, the device is used for controlling the horizontal rotating device (5) and/or the chain belt conveying device (6) to convey the empty box lattice units (7) to the window (4) of the rear cabinet door (3).

2. An intelligent operating room medical combination sideboard according to claim 1, wherein: still include material loading transmission device (10), material loading transmission device (10) set up in window (4) department of back cabinet door (3), material loading transmission device (10) are connected with human-computer interaction host computer (9) communication, and material loading transmission device (10) are used for cooperating human-computer interaction host computer (9) control medical supplies to carry on belt transmission device (8) on empty cell unit (7).

3. An intelligent operating room medical combination sideboard according to claim 2, wherein: still include baffle (11), drive arrangement (12) and sealed cowling (13), drive arrangement (12) set up on preceding cabinet door (2) and be connected with man-machine interaction host computer (9) electricity, be provided with baffle (11) on the activity end of drive arrangement (12), drive arrangement (12) are used for cooperating man-machine interaction host computer (9) to drive baffle (11) and carry out the selectivity to window (4) on preceding cabinet door (2), and sealed cowling (13) set up in the periphery of material loading transmission device (10) and seal window (4) on back cabinet door (3).

4. An intelligent operating room medical combination sideboard according to claim 3, wherein: the driving device (12) comprises a servo motor (121), a gear (122) and a toothed plate (123), wherein the servo motor (121) is arranged on the front cabinet door (2) and is electrically connected with the man-machine interaction host (9), the gear (122) is arranged on an output shaft of the servo motor (121), and the toothed plate (123) meshed with the gear (122) is arranged at one end, located in the baffle (11), of the front cabinet door (2).

5. An intelligent operating room medical combination sideboard according to claim 3, wherein: the number of the cabinet bodies (1) is not less than two, the feeding transmission device (10) comprises a main transmission belt (101), auxiliary transmission belts (102), sorting mechanisms (103) and second RFID modules (104), the auxiliary transmission belts (102) with the number not less than two are vertically arranged along the transmission direction of the main transmission belts (101), the blanking mouth of each group of auxiliary transmission belts (102) extends to the window (4) of the rear cabinet door (3) on each cabinet body (1) respectively, the sorting mechanisms (103) are arranged on one side, far away from each group of auxiliary transmission belts (102), of the main transmission belts (101), the second RFID modules (104) are arranged on the sorting mechanisms (103), the main transmission belts (101), the auxiliary transmission belts (102), the sorting mechanisms (103) and the second RFID modules (104) are all electrically connected with the human-computer interaction hosts (9), the second RFID modules (104) are used for identifying the materials on the main transmission belts (101) and transmitting the identification information to the corresponding human-computer interaction hosts (9), and the corresponding human-computer interaction hosts (103) on each cabinet body (1) are distributed on the medical control mechanisms (101) according to the corresponding to the human-computer interaction hosts (103) and the medical material transmission belts (101) which correspond to the medical control mechanisms.

6. An intelligent operating room medical combination sideboard according to claim 5, wherein: the sorting mechanism (103) comprises an electric push rod (a) and a push plate (b), wherein the electric push rod (a) is vertically arranged on one side, far away from the auxiliary conveying belt (102), of the main conveying belt (101) relatively, and the push plate (b) is arranged at the movable end of the electric push rod (a).

7. An intelligent operating room medical combination sideboard according to claim 1, wherein: the horizontal rotating device (5) comprises a first stepping motor (51), a rotating frame (52) and a bearing seat (53), wherein the first stepping motor (51) is arranged on the cabinet body (1) and is electrically connected with the electronic control module (94), the rotating frame (52) is vertically arranged in the cabinet body (1) in a rotating mode, one end of the rotating frame (52) is in transmission connection with an output shaft of the first stepping motor (51), and the bearing seat (53) is arranged on the outer wall of the cabinet body (1) and located on the outer wall of the rotating frame (52).

8. The intelligent operating room medical combination sideboard of claim 7, wherein: the horizontal rotating device (5) further comprises supporting rollers (54), the rotating frame (52) is provided with the supporting rollers (54) propped against the bottom of the inner wall of the cabinet body (1), the number of the supporting rollers (54) is not less than three, and the plurality of supporting rollers (54) are distributed on the rotating frame (52) in a circular array by taking the central line of the rotating frame (52) as an axis.

9. The intelligent operating room medical combination sideboard of claim 7, wherein: the supporting roller (54) is a ball universal wheel.

10. An intelligent operating room medical combination sideboard according to claim 1, wherein: the chain belt transmission device (6) comprises a second stepping motor (61), a driving wheel (62), driven wheels (63) and a chain belt (64), wherein the second stepping motor (61) is arranged on a rotating frame (52) and is electrically connected with an electric control module (94), the driving wheel (62) is arranged on an output shaft of the second stepping motor (61), the driven wheels (63) are arranged on the rotating frame (52) at intervals in the vertical direction relative to the driving wheel (62), the driven wheels (63) are in transmission connection with the driving wheel (62) through the chain belt (64), a plurality of box cells (7) are hinged on the chain belt (64) at equal intervals, and the gravity centers of the box cells (7) are always located below the hinging points of the box cells (7) and the chain belt (64).