CN218889439U - Gunpowder intelligent control cabinet - Google Patents

Abstract

The utility model provides a gunny intelligent control cabinet passes through the identification piece discernment and needs to take or deposit the identity information of medicine personnel, then the dodge gate is opened, and the user takes or deposits the medicine box, and after the medicine box was taken out or is deposited from the access mouth, the RFID label on the medicine box of business turn over cabinet door was read to the RFID reader, binds and records the information that corresponds the medicine box with this taking or depositing information mutually, realizes the management of medicine from taking to returning whole flow to solve the problem that the medicine can't be traced in the in-process of using.

Description

Gunpowder intelligent control cabinet

Technical Field

The application relates to the technical field of medical devices, in particular to an intelligent gunpowder control cabinet.

Background

In hospitals operating theatres are used to store relatively independent, closed areas of medicine. In the process of surgery, a great deal of milbezoar medicines are usually used by doctors in hospitals, and very strict management procedures are required for the milbezoar medicines.

The existing operating room mainly comprises the following modes in the mode of managing the hemp extract medicines:

the method comprises the steps of storing the milbezoar by using a double-lock safe, namely placing the milbezoar medicine box into the double-lock safe in the form of a meal box, then taking or returning the milbezoar medicine box after use in a manual registration mode, wherein some operations are located at night, two situations can be generated once a registered person goes to work, one is taking out the milbezoar in advance, and the operation can not be performed once the milbezoar is lost; another situation is that accurate control of the milbezoar is not possible.

Adopt intelligent medicine cabinet to store the sesame essence, verify and enter the doctor when taking the sesame essence medicine at every turn promptly, carried out management to a certain extent when taking the sesame essence medicine, but still can't manage to the sesame essence medicine after using, can't form the medicine from taking to returning the management of whole flow for the management of sesame essence class medicine still remains unresolved.

Disclosure of Invention

In view of the above, it is necessary to provide an intelligent control cabinet for placing stable gunpowder, so as to solve the problem of managing the whole process from taking to returning of the above-mentioned medicines.

The embodiment of the application provides a gunpowder intelligent management and control cabinet, include:

a cabinet body, wherein a first placing cavity for placing unused medicines and a second placing cavity for placing used medicines are formed in the cabinet body;

the cabinet door is arranged on the cabinet body and is provided with an access port communicated with the first placing cavity and the second placing cavity;

the movable door is arranged on the cabinet door;

the identification piece is arranged on the cabinet door;

the RFID reader is arranged in the cabinet body or on one side of the cabinet door away from the cabinet body and is used for reading the RFID tag on the medicine box;

when the medicine is taken or recovered, the identification piece performs identity recording and opens the movable door, so that the movable door does not shield the access opening.

In at least one embodiment of the present application, the length of the cabinet door is arranged along a vertical direction;

the cabinet door is provided with a first driving piece, and the extending end of the first driving piece is arranged along the vertical direction;

the cabinet door is provided with a guide groove arranged along the vertical direction, and the movable door penetrates through the guide groove and is fixedly connected with the extending end of the first driving piece;

the extending end of the first driving piece extends or retracts to drive the movable door to move along the vertical direction, so that the movable door can shield or not shield the access opening.

In at least one embodiment of the present application, a medicine outlet bin communicated with the first placing cavity and a recovery bin communicated with the second placing cavity are formed in the cabinet body;

the bottom of the medicine outlet bin is flush with the bottom of the first placing cavity;

a partition plate is arranged between the medicine outlet bin and the recovery bin;

the medicine outlet bin and the recovery bin are communicated with the access port.

In at least one embodiment of the present application, the intelligent control cabinet for gunpowder further comprises

The second driving piece is arranged in the first placing cavity and is fixedly connected with the output end of the second driving piece, and the second driving piece drives the pushing piece to move along the direction perpendicular to the cabinet door.

In at least one embodiment of the present application, a sliding rail disposed along a movement direction of the output end of the second driving element is disposed in the first placement cavity;

one side of the pushing piece is provided with a sliding block part which is in sliding connection with the sliding rail, the pushing piece is provided with a pushing part and a fixing part which is fixedly connected with the output end of the second driving piece, and the pushing part is close to the cabinet door.

In at least one embodiment of the present application, an abutment surface is disposed on a side of the pushing portion, which is close to the cabinet door, and a cross-sectional area of the abutment surface is smaller than a cross-sectional area of the fixing portion, and the abutment surface is disposed close to the sliding rail.

In at least one embodiment of the present application, the intelligent control cabinet for gunpowder further comprises

The rolling rod is arranged in the recovery bin;

the output end of the third driving piece is fixedly connected with one end of the rolling rod;

the output end of the third driving piece rotates to drive the rolling rod to rotate, so that the used medicine box placed in the recovery bin is contained in the second placing cavity.

In at least one embodiment of the present application, the cabinet is provided with a locking element;

one side of the cabinet door is hinged with the cabinet body, and the other side of the cabinet door is provided with a locking position locked with the locking piece.

In at least one embodiment of the present application, the first placement cavity is provided with a humidity detection module, for detecting the humidity in the first placement cavity.

In at least one embodiment of the present application, a temperature detection module is disposed in the first placement cavity, and is configured to detect a temperature in the first placement cavity.

Above-mentioned intelligent management and control cabinet of gunpowder that provides passes through the identification piece discernment and needs to take or deposit the identity information of medicine personnel, then the dodge gate is opened, and the user takes or deposits the medicine box, and after the medicine box was taken out or is deposited from the access mouth, the RFID label on the medicine box of business turn over cabinet door was read to the RFID reader, binds and records the information that corresponds the medicine box with this take or deposit information mutually, realizes the management of medicine from taking to returning whole flow to solve the problem that the medicine can't be traced in the in-process of using.

Drawings

Fig. 1 is a schematic perspective view of an intelligent control cabinet for gunpowder according to an embodiment of the utility model.

Fig. 2 is a cross-sectional view at B in fig. 1.

Fig. 3 is a partially enlarged schematic view of fig. 2 at C.

Fig. 4 is a partially enlarged schematic view of fig. 2 at D.

Fig. 5 is a schematic view of a usage state of the intelligent control cabinet for gunny according to an embodiment of the utility model.

Fig. 6 is a schematic view of a part of the structure in fig. 5.

Fig. 7 is a block diagram of the intelligent control cabinet for gunpowder.

A gunpowder intelligent control cabinet 100; a cabinet 110; a first placement cavity 110a; a second placement cavity 110b; a drug outlet bin 110c; a recovery bin 110d; a slide rail 110e; a cabinet door 120; access port 120a; a guide groove 120b; a capture 120c; a movable door 130; an identification member 140; an RFID reader 150; a vertical direction A; a first driving member 160; a partition plate 170; a second driving member 180; a pusher 190; a slider portion 191; a pushing portion 192; a fixing portion 193; an abutment surface 192a; a scroll bar 200; a third driving member 210; a locking member 220; a humidity detection module 230; a temperature detection module 240; a medicine box 250.

Description of the embodiments

Embodiments of the present application will now be described with reference to the accompanying drawings, in which it is apparent that the embodiments described are merely some, but not all embodiments of the present application.

It is noted that when one component is considered to be "connected" to another component, it may be directly connected to the other component or intervening components may also be present. When an element is referred to as being "disposed" on another element, it can be directly on the other element or intervening elements may also be present. The terms "top," "bottom," "upper," "lower," "left," "right," "front," "rear," and the like are used herein for illustrative purposes only.

Embodiments of the present application provide a gunpowder intelligent control cabinet 100, including:

a cabinet body 110 having a first placing chamber 110a for placing unused medicines and a second placing chamber 110b for placing the medicines after use formed therein;

a cabinet door 120 provided on the cabinet body 110 and having an access port 120a communicating with the first placing chamber 110a and the second placing chamber 110b;

the movable door 130 is arranged on the cabinet door 120;

the identification piece 140 is arranged on the cabinet door 120;

an RFID reader 150, provided in the cabinet 110 or on a side of the cabinet door 120 remote from the cabinet 110, for reading an RFID tag on the medicine box 250;

when taking or recycling the medicine, the identification member 140 records the identity and opens the movable door 130, so that the movable door 130 does not cover the access port 120a.

The intelligent control cabinet 100 for gunpowder provided above recognizes the identity information of the personnel who need to take or store the medicine through the recognition piece 140, then the movable door 130 is opened, the personnel is used to take or store the medicine box 250, after the medicine box 250 is taken out or stored from the access port 120a, the RFID reader 150 reads the RFID tag on the medicine box 250 which enters and exits the cabinet door 120, the information corresponding to the medicine box 250 is bound with the current taking or storing information and recorded, and the management of the whole process from taking to returning of the medicine is realized, so that the problem that the medicine cannot be tracked in the using process is solved.

Some embodiments of the present application are described in detail below with reference to the accompanying drawings. The following embodiments and features of the embodiments may be combined with each other without conflict.

Embodiments of the present application provide a gunpowder intelligent control cabinet 100, including:

a cabinet body 110 having a first placing chamber 110a for placing unused medicines and a second placing chamber 110b for placing the medicines after use formed therein;

a cabinet door 120 provided on the cabinet body 110 and having an access port 120a communicating with the first placing chamber 110a and the second placing chamber 110b;

the movable door 130 is arranged on the cabinet door 120;

the identification piece 140 is arranged on the cabinet door 120;

an RFID reader 150, provided in the cabinet 110 or on a side of the cabinet door 120 remote from the cabinet 110, for reading an RFID tag on the medicine box 250;

when taking or recycling the medicine, the identification member 140 records the identity and opens the movable door 130, so that the movable door 130 does not cover the access port 120a.

Examples

Referring to fig. 1 to 4, in this embodiment, when taking medicine, the identification member 140 identifies user identity information of the medicine to be taken, and controls the medicine box 250 of the medicine in the first placement cavity 110a to be moved out to the access port 120a according to the medicine box 250 information of the medicine bound by the identity information, the movable door 130 is opened, so that the access port 120a is communicated with the outside, when the user takes the medicine box 250 of the medicine in the access port 120a, if the RFID reader 150 is disposed in the cabinet 110, the medicine box 250 of the medicine is far away from the reading range of the RFID reader 150 in the cabinet 110, at this time, the RFID reader 150 cannot read the RFID tag information on the medicine box 250 of the medicine bound, and the movement information is uploaded to the system according to the user identity information and the RFID tag information on the medicine box 250 of the medicine bound, and the movement information includes: the medicine number, the medicine name, the medicine removal time and the user identity information of the medicine taking corresponding to the medicine box 250 of the medicine; if the RFID reader 150 is disposed on the cabinet door 120, when the medicine box 250 of the medicine is taken out from the access port 120a, the movable door 130 is opened, so that the access port 120a is communicated with the outside, the RFID reader 150 reads the RFID tag on the medicine box 250 of the medicine, and the RFID reader 150 generates removal information according to the RFID tag information and the user identity information, and sends the removal information to the system to record in the system.

When medicine is recovered, user identity information of medicine to be recovered is identified through the identification piece 140, if the RFID reader 150 is arranged in the cabinet 110, the movable door 130 is opened to expose the access port 120a, at this time, the user puts the medicine box 250 of medicine to be recovered into the access port 120a, the RFID reader 150 reads RFID tag information on the medicine box 250 of medicine in the access port 120a, if the RFID tag information on the medicine box 250 of medicine is recorded in the system in unit time, recovery information is generated according to the received RFID tag information on the medicine box 250 of medicine and the user identity information, and the recovery information comprises: the medicine name, the medicine number, the recovery time and the identity information of the medicine, the recovery information is sent to the system, and the system stores the recovery information.

The identification member 140 identifies the user identity information of the medicine to be recovered, if the RFID reader 150 is disposed on the cabinet door 120, the RFID reader 150 reads the RFID tag information on the medicine box 250 of the medicine close to the cabinet body 110, the movable door 130 is opened to expose the access port 120a, at this time, the user puts the medicine box 250 of the medicine to be recovered into the access port 120a, if the RFID tag information on the medicine box 250 of the medicine is recorded in the system in unit time, recovery information is generated according to the received RFID tag information on the medicine box 250 of the medicine and the user identity information, and the recovery information includes: the medicine name, the medicine number, the recovery time and the identity information of the medicine, the recovery information is sent to the system, and the system stores the recovery information.

The information corresponding to the medicine box 250 is bound with the current taking or storing information and recorded, so that the management of the whole process from taking to returning of the medicine is realized, and the problem that the medicine cannot be tracked in the using process is solved.

It should be noted that, the cabinet body 110 has a cube structure, a cavity structure is formed in the cabinet body 110, and the cabinet door 120 has a plate structure; the access port 120a is a through channel, and is used for connecting the first placing cavity 110a, the second placing cavity 110b and the outside of the cabinet door 120 inside the cabinet body 110; the movable door 130 has a substantially plate-shaped structure, and the area of the movable door 130 is larger than the area of the access opening 120a when viewed in a direction perpendicular to the cabinet door 120; the identification member 140 is a camera; the RFID reader 150 transmits electromagnetic waves with a certain frequency outwards through an antenna thereof, generates induction current inside the electronic tag to be activated after the electronic tag enters the working range of a transmitting antenna, then transmits stored information through the internal antenna, the antenna of the reader receives carrier signals from the electronic tag and transmits the carrier signals to the reader, and the reader demodulates and decodes the received signals and transmits the processed data to the system.

In at least one embodiment of the present application, the length of the cabinet door 120 is disposed along the vertical direction a;

referring to fig. 1 to 4, the cabinet door 120 is provided with a first driving member 160, and an extending end of the first driving member 160 is disposed along a vertical direction a;

the cabinet door 120 is provided with a guide groove 120b arranged along the vertical direction A, and the movable door 130 penetrates through the guide groove 120b and is fixedly connected with the extending end of the first driving piece 160;

the extending end of the first driving member 160 extends or retracts to drive the movable door 130 to move along the vertical direction a, so that the movable door 130 blocks or does not block the access opening 120a.

In this embodiment, when the medicine is taken or recovered, the protruding end of the first driving member 160 protrudes along the vertical direction a, and the movable door 130 is fixedly connected with the protruding end of the first driving member 160, so that the movable door 130 moves along the vertical downward direction (the direction close to the ground), the movable door 130 does not shield the access opening 120a, and at this time, the outside is communicated with the first placing cavity 110a and the second placing cavity 110b through the access opening 120a, and at this time, the user can take or place the medicine through the access opening 120a for recovery.

When not in use, namely the medicine is taken out or recovered, the extending end of the first driving member 160 is retracted along the vertical direction A, and the movable door 130 is fixedly connected with the extending end of the first driving member 160, so that the movable door 130 moves along the vertical upward direction (away from the ground), the movable door 130 shields the access port 120a, and at the moment, the outside is separated from the access port 120a through the movable door 130, so that the medicine can be stored in the cabinet body 110 more safely, the medicine stored in the cabinet body 110 can be monitored and managed at any time, and the medicine in the cabinet body 110 is prevented from being polluted due to the outside air.

The guide groove 120b is a through groove disposed along the vertical direction a, and the first driving member 160 is an air pump or a hydraulic pump.

In at least one embodiment of the present application, a medicine outlet bin 110c communicated with the first placing cavity 110a and a recovery bin 110d communicated with the second placing cavity 110b are formed in the cabinet body 110;

the bottom of the medicine outlet bin 110c is flush with the bottom of the first placing cavity 110a;

a separator 170 is arranged between the medicine outlet bin 110c and the recovery bin 110d;

the medicine outlet bin 110c and the recovery bin 110d are both communicated with the access port 120a.

Referring to fig. 1-6, in this embodiment, when a user needs to take a medicine, the identification member 140 identifies the user identity information of the medicine to be taken, and controls the medicine box 250 of the medicine in the first accommodating chamber 110a to be moved out to the access port 120a according to the medicine box 250 information of the medicine bound by the identity information, the movable door 130 is opened, and the bottom of the medicine outlet bin 110c is flush with the bottom of the first accommodating chamber 110a, so that the medicine box 250 of the medicine at the bottom of the first accommodating chamber 110a is moved out to the access port 120a through the medicine outlet bin 110c, and the user takes the medicine box 250 located in the access port 120a.

When the user stores the recovered medicine box 250, the identification piece 140 identifies the user identity information of the medicine to be stored, and the medicine box 250 information of the medicine bound according to the identity information controls the movable door 130 to move, the movable door 130 does not shield the access port 120a, at this time, the user places the recovered medicine box 250 into the access port 120a, enters the second placing cavity 110b from the access port 120a, and stores the recovered medicine box 250 into the second placing cavity 110b for storing unused medicine and used medicine separately, and as the partition 170 is arranged between the medicine outlet bin 110c and the recovery bin 110d, the medicine taking and the medicine recovery are separated, and the medicine in the first placing cavity 110a is prevented from being polluted by the recovered medicine box 250.

It should be noted that, the medicine outlet bin 110c is a rectangular channel, and is located at the joint of the first placing cavity 110a and the access port 120a, and a plurality of medicine outlet bins 110c are arranged and are distributed in a horizontal straight line (i.e. perpendicular to the vertical direction a); the recycling bin 110d is a rectangular channel and is positioned at the joint of the second placing cavity 110b and the access port 120a, and a plurality of recycling bins 110d are arranged and distributed in a horizontal straight line (i.e. vertical to the vertical direction A); the partition 170 is in a plate shape horizontally arranged to separate the medicine discharging bin 110c from the recovery bin 110d, and the medicine discharging bin 110c is located above the recovery bin 110 d.

In at least one embodiment of the present application, the intelligent control cabinet for a gunpowder 100 further comprises

Referring to fig. 1-6, a second driving member 180 disposed in the first placing cavity 110a, and a pushing member 190 fixedly connected to an output end of the second driving member 180, where the second driving member 180 drives the pushing member 190 to move along a direction perpendicular to the cabinet door 120.

In at least one embodiment of the present application, a sliding rail 110e disposed along the movement direction of the output end of the second driving member 180 is disposed in the first placement cavity 110a;

one side of the pushing piece 190 is provided with a sliding block part 191 which is in sliding connection with the sliding rail 110e, the pushing piece 190 is provided with a pushing part 192 and a fixing part 193 which is fixedly connected with the output end of the second driving piece 180, and the pushing part 192 is close to the cabinet door 120.

Referring to fig. 1-6, in this embodiment, during taking, the identification member 140 identifies the user identity information of the drug to be taken, and controls the drug box 250 of the drug in the first placement cavity 110a to move out to the access port 120a according to the information of the drug box 250 of the drug bound by the identity information, the protruding end of the first driving member 160 protrudes in the vertical direction a, because the movable door 130 is fixedly connected with the protruding end of the first driving member 160, the movable door 130 moves in the vertical downward direction (the direction close to the ground), the movable door 130 does not shield the access port 120a, at this time, the outside is communicated with the first placement cavity 110a and the second placement cavity 110b through the access port 120a, when the user takes the drug box 250 of the drug in the access port 120a, the RFID tag information is generated according to the user identity information and the drug box 250 of the bound by the drug, at this time, the output end of the second driving member 180 is moved in the direction close to the cabinet door 120a, the slider portion 191 slides in the sliding rail 110e, the second driving member 180 is not required to move out to the output end 192 of the second driving member 180 a, and the drug box 192 is moved out to the access port 120a through the access port, and the drug box 250 is pushed out to the access port 120a according to the information recorded by the manual drug, and the drug box 192 is moved out to the drug box 250 is pushed out to the access port, and the drug box is moved out to the drug box 120b is registered.

It should be noted that, the second driving member 180 is an air pump or a hydraulic pump, and is disposed at the bottom of the first placement cavity 110a; the pushing member 190 has a rectangular block with a substantially right trapezoid shape; the opening direction of the sliding rail 110e is set along the movement direction of the output end of the second driving member 180, that is, the direction perpendicular to the cabinet door 120, and the sliding block portion 191 is in a block shape.

In at least one embodiment of the present application, an abutment surface 192a is disposed on a side of the pushing portion 192 adjacent to the cabinet door 120, a cross-sectional area of the abutment surface 192a is smaller than that of the fixing portion 193, and the abutment surface 192a is disposed adjacent to the sliding rail 110 e.

Referring to fig. 1-6, in the present embodiment, since the pushing portion 192 is provided with an abutment surface 192a on a side close to the cabinet door 120, the cross-sectional area of the abutment surface 192a is smaller than that of the fixing portion 193, and the abutment surface 192a is disposed close to the sliding rail 110e, so that the abutment surface 192a abuts against the medicine box 250 at the bottom of the first placement cavity 110a when the medicine box 250 is pushed by the pushing portion 192, at this time, the acting force between the pushing portion 192 and the medicine box 250 acts on the medicine box 250 completely due to the cross-sectional area of the abutment surface 192a being smaller than that of the fixing portion 193, and the inclined surface of the pushing portion 192 is close to the cabinet door 120 due to the shape of the pushing portion 192 being substantially a right trapezoid, so that the medicine box 250 contacting with the medicine box 250 at the bottom will not be pushed to the access port 120a when the medicine box 250 at the bottom is pushed by the pushing portion 192.

The pushing portion 192 has a substantially rectangular trapezoidal shape.

In at least one embodiment of the present application, the intelligent control cabinet for a gunpowder 100 further comprises

A rolling rod 200 provided in the recovery bin 110d;

the third driving piece 210 is arranged in the second placing cavity 110b, and the output end of the third driving piece 210 is fixedly connected with one end of the rolling rod 200;

the output end of the third driving member 210 rotates to drive the rolling rod 200 to rotate, so that the usage medicine box 250 placed in the recycling bin 110d is accommodated in the second accommodating cavity 110 b.

Referring to fig. 1-6, in this embodiment, when the medicine box 250 is recovered, the identification member 140 is used to identify the user identity information of the medicine to be recovered, the RFID reader 150 reads the RFID tag information on the medicine box 250 of the medicine in the access port 120a, if the RFID tag information on the medicine box 250 of the medicine is recorded in the system in unit time, the recovery information is generated according to the RFID tag information and the user identity information on the medicine box 250 of the received medicine, the extending end of the first driving member 160 extends out along the vertical direction a, and since the movable door 130 is fixedly connected with the extending end of the first driving member 160, the movable door 130 moves along the vertical downward direction (the direction close to the ground), the movable door 130 does not shield the access port 120a, the outside is at this time communicated with the first placing cavity 110a and the second placing cavity 110b through the access port 120a, the user places the recovered medicine box 250 in the access port 120a, the medicine box 250 extends to the recovery cavity 110d at this time, the medicine box 250 abuts against the rolling rod 200, the rolling rod 200 is driven by the third driving member 210 to roll the rolling rod 200 to place the second placing cavity 250 b to record the recovered medicine 250 in the system, thereby realizing the recovery of the recovery information, and the recovery system is stored in the system is read, and the recovery information is recovered.

It should be noted that, the third driving member 210 is a motor, the rolling rod 200 is a circular rod, in this embodiment, the rolling rod 200 is disposed at the bottom of the recovery bin 110d, the rolling rod 200 is not limited to the bottom of the recovery bin 110d, but may be disposed at a side or top of the recovery bin 110d, so that when the medicine box 250 is disposed in the recovery bin 110d, the rolling rod 200 is in contact with the medicine box 250, and then a flexible rolling sleeve may be sleeved on the rolling rod 200 to increase the friction force between the rolling rod 200 and the medicine box 250.

In at least one embodiment of the present application, the cabinet 110 is provided with a locking member 220;

one side of the cabinet door 120 is hinged with the cabinet body 110, and the other side is provided with a locking position 120c locked with the locking piece 220.

Referring to fig. 1-6, in the present embodiment, when the medicine box 250 needs to be replenished, the cabinet door 120 is opened by the locking member 220, and since one side of the cabinet door 120 is hinged to the cabinet body 110, the cabinet door 120 can rotate around the hinge of the cabinet body 110, so that the cabinet door 120 does not cover the first placing cavity 110a and the second placing cavity 110b, and then the replenished medicine box 250 is placed into the first placing cavity 110a, or the medicine box 250 is recovered in the second placing cavity 110b, so as to realize continuous replenishment of the medicine box 250.

It should be noted that the locking element 220 is a double mechanical emergency lock.

In at least one embodiment of the present application, a humidity detection module 230 is disposed in the first placement chamber 110a for detecting humidity in the first placement chamber 110 a.

Referring to fig. 1-7, in the present embodiment, the humidity detection module 230 is configured to monitor the ambient temperature in the first placement cavity 110a, so that the drug can maintain a good activity range.

It should be noted that, the second placing cavity 110b may also be provided with a humidity detecting module 230, so as to prevent the used medicine box 250 from being continuously reproduced due to the attached virus, and the second placing cavity 110b may be provided with an ultraviolet lamp tube for sterilizing the used medicine box 250.

In at least one embodiment of the present application, a temperature detection module 240 is disposed within the first placement chamber 110a for detecting the temperature within the first placement chamber 110 a.

Referring to fig. 1 to 7, in the present embodiment, the temperature detection module 240 is configured to monitor the ambient temperature in the first placement cavity 110a in real time, so that the medicine is located in a good ambient temperature range, and upload the real-time monitored temperature value to the system, so as to monitor the medicine in the cabinet 110 at any time.

The foregoing is merely exemplary of the present application and it should be noted herein that modifications may be made by those skilled in the art without departing from the inventive concept herein, which fall within the scope of the present application.

Claims (10)

1. The utility model provides a gunpowder intelligence management and control cabinet which characterized in that includes:

a cabinet body, wherein a first placing cavity for placing unused medicines and a second placing cavity for placing used medicines are formed in the cabinet body;

the cabinet door is arranged on the cabinet body and is provided with an access port communicated with the first placing cavity and the second placing cavity;

the movable door is arranged on the cabinet door;

the identification piece is arranged on the cabinet door;

the RFID reader is arranged in the cabinet body or on one side of the cabinet door away from the cabinet body and is used for reading the RFID tag on the medicine box;

when the medicine is taken or recovered, the identification piece performs identity recording and opens the movable door, so that the movable door does not shield the access opening.

2. The intelligent control cabinet for gunpowder according to claim 1, wherein the length of the cabinet door is arranged along the vertical direction;

the cabinet door is provided with a first driving piece, and the extending end of the first driving piece is arranged along the vertical direction;

the cabinet door is provided with a guide groove arranged along the vertical direction, and the movable door penetrates through the guide groove and is fixedly connected with the extending end of the first driving piece;

the extending end of the first driving piece extends or retracts to drive the movable door to move along the vertical direction, so that the movable door can shield or not shield the access opening.

3. The intelligent control cabinet for gunpowder according to claim 1, wherein a medicine outlet bin communicated with the first placing cavity and a recovery bin communicated with the second placing cavity are formed in the cabinet body;

the bottom of the medicine outlet bin is flush with the bottom of the first placing cavity;

a partition plate is arranged between the medicine outlet bin and the recovery bin;

the medicine outlet bin and the recovery bin are communicated with the access port.

4. The intelligent control cabinet for a gunpowder according to claim 3, further comprising

The second driving piece is arranged in the first placing cavity and is fixedly connected with the output end of the second driving piece, and the second driving piece drives the pushing piece to move along the direction perpendicular to the cabinet door.

5. The intelligent control cabinet for gunpowder according to claim 4, wherein the first placing cavity is internally provided with a sliding rail arranged along the movement direction of the output end of the second driving piece;

one side of the pushing piece is provided with a sliding block part which is in sliding connection with the sliding rail, the pushing piece is provided with a pushing part and a fixing part which is fixedly connected with the output end of the second driving piece, and the pushing part is close to the cabinet door.

6. The intelligent control cabinet for gunpowder according to claim 5, wherein an abutting surface is arranged on one side of the pushing part close to the cabinet door, the cross-sectional area of the abutting surface is smaller than that of the fixing part, and the abutting surface is arranged close to the sliding rail.

7. The intelligent control cabinet for a gunpowder according to claim 3, further comprising

The rolling rod is arranged in the recovery bin;

the output end of the third driving piece is fixedly connected with one end of the rolling rod;

the output end of the third driving piece rotates to drive the rolling rod to rotate, so that the used medicine box placed in the recovery bin is contained in the second placing cavity.

8. The intelligent control cabinet for gunpowder according to claim 1, wherein,

the cabinet body is provided with a locking piece;

one side of the cabinet door is hinged with the cabinet body, and the other side of the cabinet door is provided with a locking position locked with the locking piece.

9. The intelligent control cabinet for gunpowder according to claim 1, wherein the first placing cavity is provided with a humidity detection module for detecting the humidity in the first placing cavity.

10. The intelligent control cabinet for gunpowder according to claim 1, wherein a temperature detection module is arranged in the first placing cavity and used for detecting the temperature in the first placing cavity.

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