CN214376577U - Sample collection management system with reservation storage function - Google Patents

Abstract

The utility model provides a sample acquisition management system with reservation memory function belongs to medical instrument technical field, include: the reservation mechanism comprises a cabinet body, and a first inlet, a storage cavity and a control screen are arranged on the cabinet body; the first driving structure is provided with a receiving part and a moving part for driving the receiving part to place the sample container into the corresponding storage cavity. The utility model provides a pair of outpatient service body fluid collection management system with reservation storage function, through the cooperation between the self-service machine of reservation mechanism and outpatient service body fluid collection, the storage intracavity of the cabinet body is put into in advance to the sample container that needs the patient to use, the patient can be according to the card of seeing a doctor, the medical insurance card, the ID card, the internal sample container who takes the reservation in advance of two-dimensional code or face identification etc. mode follow, thereby the time of seeing a doctor has been shortened greatly, the body of seeing a doctor who has improved the patient is felt, and under the condition that reduces medical staff intensity of labour, and the work efficiency is improved.

Description

Sample collection management system with reservation storage function

Technical Field

The utility model belongs to the technical field of medical instrument, a management system is related to, especially a sample acquisition management system with reservation storage function.

Background

At present, the outpatient examination in hospitals is divided into blood examination and body fluid examination. The outpatient clinic fluid examination process is as follows: the patient arrives at the inspection window by the check sheet, the staff selects the container according to the medical advice and submits to the reservation requirement, the patient arrives at the window again after sampling, the staff receives the specimen and prints the bar code to be pasted on the container, and simultaneously prints the receipt sheet to the patient, and the time and the place of taking the sheet are informed. There are the following problems: 1. the waiting time is long due to long queuing at peak time; 2. various errors such as insufficient sample collection amount, wrong container taking and the like are caused by various reasons; 3. the workload is large, and the error of putting on the hat is easy to occur; 4. when a sample is received, a patient's visit card is required to be taken to print a bar code and be attached to a container, and a receipt is printed for the patient at the same time, so that the sample possibly has biohazard, hospital infection is possible, and patient complaints are often caused; 5. the manual bar code is not consistent in height, so that the detection speed is reduced, and the maximum efficiency cannot be exerted. The outpatient blood examination is carried out according to the sequence of checking in, queuing and calling, and then blood samples are collected at the corresponding blood drawing window for detection. At present, various devices for labeling vacuum blood collection tubes are available.

Chinese patent (CN207718498U) discloses an outpatient body fluid collecting self-service machine, which comprises: the laser printing machine comprises a rack, at least one transmission mechanism is arranged on the rack, at least one discharging mechanism and one laser printing mechanism are respectively arranged at two ends of the transmission mechanism, at least one rotating mechanism is arranged at the same end position of the laser printing mechanism, and the rotating mechanism and the laser printing mechanism are respectively positioned at the upper side and the lower side of the transmission mechanism.

However, the above-mentioned self-service machine for collecting body fluid of an outpatient service has no reservation function, and patients can only wait in line on site to receive a sample container, thereby reducing the working efficiency.

Disclosure of Invention

The utility model aims at having the above-mentioned problem to current technique, provided one kind and can realize reserving in advance and deposit the sample container to have higher work efficiency's management system.

The purpose of the utility model can be realized by the following technical proposal: a sample collection management system with an appointment storage function, comprising:

the reservation mechanism comprises a cabinet body, wherein the cabinet body is provided with a first inlet for receiving a sample container, a storage cavity for storing the sample container and a control screen for unlocking and opening the corresponding storage cavity, two adjacent storage cavities are separated by a partition plate, and each storage cavity is provided with a door plate with an ejection function; the first driving structure is provided with a receiving part for receiving the sample container at the first inlet and a moving part for driving the receiving part to place the sample container into the corresponding storage cavity.

In the above-described specimen collection management system with the reservation storage function, a first conveyor belt for conveying the specimen container to the receiving portion is provided at the first entrance.

In the above-mentioned sample collection management system with the reservation storage function, the moving part includes a first moving part that drives the receiving part to move left and right, a second moving part that drives the receiving part to move back and forth, and a third moving part that drives the receiving part to move up and down.

In the above-mentioned sample collection and management system with the reservation storage function, the third moving portion includes the first support plate mounted on the second moving portion, and the first drive portion for driving the receiving portion to reciprocate is mounted on the first support plate, wherein the receiving portion is in rolling fit with the first support plate.

The utility model also provides a sample collection management system with reservation storage function, still include and be provided with the sample container that is used for receiving the self-service quick-witted output of outpatient service body fluid collection between self-service machine of outpatient service body fluid collection and reservation mechanism to concentrate this sample container and carry to the collection mechanism of reservation mechanism.

In the above-described specimen collection management system having an appointment storage function, the collection mechanism includes:

the box body is provided with a second inlet used for receiving the sample container output by the outpatient clinic body fluid collecting self-service machine and a first outlet used for conveying the material box filled with the sample container to the reservation mechanism, wherein a discharging platform is arranged between the second inlet and the first outlet;

the storage structure is used for storing the material box, is arranged in the box body and is positioned above or below the discharging platform;

the second driving structure is installed on one side of the storage structure and comprises an inserting part for carrying the material box on the storage structure to the discharging platform, a lifting part and a translation part for respectively driving the inserting part to vertically move and horizontally move.

In the sample collection management system with the reservation storage function, the box body is further provided with a second outlet for directly outputting the sample container.

In the sample collection and management system with the reservation storage function, a horizontal pushing structure is arranged above the discharging platform, and the position of the horizontal pushing structure corresponds to the position of the second outlet, wherein a horizontal pushing part for pushing the material box on the discharging platform to the second outlet is arranged on the horizontal pushing structure.

In the sample collection management system with the reservation storage function, the box separation structure is installed at one end of the discharging platform and comprises a blanking support with a feeding port and a blanking port, and a box separation part used for separating stacked material boxes one by one is arranged along the edge of the blanking port, wherein the blanking port is right opposite to the discharging platform.

In the sample collection management system with the reservation storage function, the box separation part comprises a plurality of box separation columns which rotate synchronously along the edge of the blanking port, and the surface of one end of each box separation column is provided with a thread, wherein the thread pitch between adjacent threads is consistent with the thickness of the edge of the opening end of the material box.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) the utility model provides a pair of sample collection management system with reservation storage function, through the cooperation between the self-service machine of reservation mechanism AND gate diagnosis body fluid collection, the storage intracavity of the cabinet body is put into in advance to the sample container that needs the patient to use, the patient can be according to the card of seeing a doctor, the card is protected to the doctor, the ID card, the internal sample container who takes the reservation in advance of two-dimensional code or face identification etc. mode follow, thereby shortened the time of seeing a doctor greatly, the body of seeing a doctor who has improved the patient is felt, and under the condition that reduces medical staff intensity of labour, and the work efficiency is improved.

(2) The sample container that self-service machine output was gathered to outpatient service body fluid through collecting the mechanism is concentrated and is received to concentrate carry in the reservation mechanism, avoid sample container to transport to the reservation mechanism from outpatient service body fluid collection self-service machine and take place to fall the phenomenon on the one hand, on the other hand avoids the patient to take place to leak when taking sample container in the reservation mechanism and takes, the shakiness of falling the broken phenomenon of sample container takes place for taking or taking the shakiness, and then under the condition that reduces medical staff intensity of labour, improve work efficiency.

(3) The utility model discloses a sample container, including the first exit, the first exit is set up on the box, through set up the second export on the box for collect the mechanism not only as the outpatient service body fluid and gather the bridge between self-service machine and the reservation mechanism, but also can regard as the export of patient's on-the-spot sample container of seeking medical advice, and this sample container integration adorns in the magazine, avoids the patient to take place to leak when the sample container is taken in the second exit and takes, takes or takes the unstability and take place the phenomenon that the sample container falls the breakage.

(4) The quantity through increasing the second export, a plurality of patients of being convenient for can carry out taking of sample container simultaneously, shorten patient's time of seeking medical advice greatly, improve patient's experience of seeking medical advice and feel to further improve medical staff's work efficiency.

(5) Through the insertion and connection cooperation between the first induction notch and the first induction sheet in the first sensor, the sample container is accurately sent into the corresponding storage cavity and the switch of the second moving motor, and through the insertion and connection cooperation between the second induction notch and the second induction sheet in the second sensor, the moving stroke of the horizontal pushing part and the switch of the horizontal pushing motor are strictly controlled, so that the accuracy of the horizontal pushing part in pushing the material box is ensured. Through the grafting cooperation between the third response breach on the third sensor and the third response piece, realize the accurate location of shift fork and control elevator motor's switch.

(6) The automatic box separation of the stacked material boxes is realized under the condition that the utilization rate of the storage space in the storage structure is improved through the box separation structure, the medical personnel are not required to manually separate the material boxes, and the efficiency and the reliability of the box separation are improved.

Drawings

Fig. 1 is a block diagram of a sample collection management system with an appointment storage function according to the present invention.

Fig. 2 is a schematic structural diagram of a reservation mechanism according to a preferred embodiment of the present invention.

Fig. 3 is a partial schematic view of a reservation mechanism according to a preferred embodiment of the present invention.

Fig. 4 is an enlarged view of a portion a in fig. 3.

Fig. 5 is a partial schematic view of a reservation mechanism according to a preferred embodiment of the present invention.

Fig. 6 is an enlarged view of a portion B in fig. 5.

Fig. 7 is a block diagram of another embodiment of the sample collection management system with an appointment storage function according to the present invention.

Fig. 8 is a schematic structural view of a collecting mechanism according to a preferred embodiment of the present invention.

Fig. 9 is a partial schematic view of a collection mechanism according to a preferred embodiment of the present invention.

Fig. 10 is an enlarged view of a portion C in fig. 9.

Fig. 11 is an enlarged view of a portion D in fig. 9.

Fig. 12 is an enlarged view of a portion E in fig. 9.

Fig. 13 is a partial schematic view of a second embodiment of the collecting mechanism of the present invention.

Fig. 14 is an enlarged view of portion F in fig. 13.

In the figure, 100, a self-service machine for collecting body fluid of an outpatient clinic; 200. an appointment mechanism; 210. a cabinet body; 211. a first inlet; 212. a storage chamber; 213. a control screen; 214. a partition plate; 215. a door panel; 216. a first conveyor belt; 220. a first drive structure; 221. a first linear slide rail; 222. a first linear slider; 223. a second linear slide rail; 224. a second linear slider; 225. a first support plate; 226. a second moving motor; 227. receiving a bracket; 228. a first roller; 229. receiving a plate; 230. a first sensor; 231. a first sensing notch; 232. a first sensing piece; 240. a first thrust member;

300. a collection mechanism; 310. a box body; 311. a second inlet; 312. a first outlet; 313. a second outlet; 320. a discharge platform; 321. a third conveyor belt; 322. a second drive motor; 330. a storage structure; 331. a second conveyor belt; 332. a first drive motor; 340. a second drive structure; 341. a third linear slide rail; 342. a third linear slide block; 343. a support; 344. a lifting motor; 345. a fourth linear slide rail; 346. a fourth linear slider; 347. a shifting fork; 348. a third sensor; 3481. a third sensing gap; 349. a third induction sheet; 350. a horizontal pushing structure; 351. a second support plate; 352. a horizontal pushing motor; 353. horizontally pushing the bracket; 354. a second roller; 355. pushing the plate; 356. a second sensor; 3561. a second sensing notch; 357. a second sensing piece; 358. a second thrust member; 360. a box separating structure; 361. a blanking bracket; 3611. a feeding port; 3612. a blanking port; 362. separating the box columns; 363. a synchronizing wheel; 364. and (5) erecting a rail.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

Example one

As shown in fig. 1 to 6, the utility model provides a sample collection management system with reservation storage function, including:

the outpatient clinic body fluid collecting self-service machine 100 is used for storing a sample container, wherein the sample container comprises a vacuum blood collecting tube for collecting blood, a urine sediment tube for collecting body fluid, a stool tube and the like, and outputs the corresponding sample container according to medical orders;

the reservation mechanism 200 comprises a cabinet body 210, wherein a first inlet 211 for receiving a sample container output by the clinic fluid collection self-service machine 100, a storage cavity 212 for storing the sample container, and a control screen 213 for unlocking and opening the corresponding storage cavity 212 are arranged on the cabinet body 210, wherein two adjacent storage cavities 212 are separated by a partition plate 214, and a door panel 215 with an ejection function is arranged on each storage cavity 212; a first driving structure 220, which is provided with a receiving portion for receiving the sample container at the first inlet 211 and a moving portion for driving the receiving portion to place the sample container into the corresponding storage chamber 212.

The outpatient body fluid collection kiosk 100 in this embodiment can refer to the patent document previously published by the applicant under the publication number CN207718498U, and therefore, the description thereof will not be repeated in this document. In addition, the patient can confirm the identity information of the patient through a visit card, a medical insurance card, an identity card, a two-dimensional code or face recognition and the like, and can take the corresponding sample container output according to the medical advice at the storage cavity 212.

The utility model provides a pair of sample collection management system with reservation storage function, through the cooperation between the self-service machine 100 of mechanism 200 AND gate diagnosis body fluid collection of reservation, put into the storage chamber 212 of the cabinet body 210 with the sample container that the patient needs to use in advance, the patient can be according to seeing a doctor the card, the medical insurance card, the ID card, the sample container of reservation in advance is taken from the cabinet body 210 to modes such as two-dimensional code or face identification, thereby the time of seeing a doctor has been shortened greatly, the body of seeing a doctor of patient is felt to have been improved, and under the condition that reduces medical staff intensity of labour, and the work efficiency is improved.

Preferably, as shown in fig. 1 to 6, a first conveyor belt 216 for transporting the sample container to the receiving portion is provided at the first inlet 211.

Preferably, as shown in fig. 1 to 6, the moving part includes a first moving part for driving the receiving part to move left and right, a second moving part for driving the receiving part to move back and forth, and a third moving part for driving the receiving part to move up and down, wherein the third moving part, the second moving part and the first moving part are sequentially stacked from top to bottom.

Further preferably, the first moving part comprises a first moving motor (not shown in the figure), and an output end of the first moving motor is connected with a belt wheel structure, wherein the second moving part is connected to a belt of the belt wheel structure, and is provided with first linear sliding rails 221 on two sides of the belt wheel structure, and the first linear sliding rails 221 are slidably connected with first linear sliding blocks 222.

Further preferably, the second moving part includes a second linear slide 223 connected to the first linear slide 222, and a second linear slide 224 is slidably connected to the second linear slide 223, wherein the third moving part is mounted on the second linear slide 224.

Further preferably, the third moving portion includes a first support plate 225 mounted on the second linear slider 224, and a first driving portion for driving the receiving portion to reciprocate is mounted on the first support plate 225, wherein the receiving portion is in rolling fit with the first support plate 225.

In this embodiment, the receiving portion and the first supporting plate 225 are in rolling fit, so that friction between the receiving portion and the first supporting plate 225 is reduced, and smoothness of the receiving portion in the up-and-down movement process is guaranteed.

Further preferably, the first driving part comprises a second moving motor 226, and the output end of the second moving motor 226 is connected with a belt wheel structure, wherein the receiving part is connected to a belt of the belt wheel structure, and the receiving part comprises a receiving bracket 227, the receiving bracket 227 is provided with a first roller 228 in rolling fit with the first support 225, and a receiving plate 229 in plug fit with the magazine.

Preferably, as shown in fig. 1 to 6, a first detecting portion for controlling a moving stroke of the receiving portion is mounted on the first support plate 225, and the first detecting portion includes two first sensors 230, and the two first sensors 230 are mounted at two ends of the receiving bracket 227 along a direction perpendicular to a moving direction of the receiving portion, wherein a first sensing notch 231 is formed in the first sensor 230, and is in plug-in fit with a first sensing piece 232 mounted on the receiving bracket 227.

In this embodiment, through the insertion and engagement between the first sensing notch 231 in the first sensor 230 and the first sensing piece 232, a "travel switch" is formed at each of the two ends of the first supporting plate 225, and when the receiving portion moves to a position close to the second moving motor 226, the first sensing piece 232 is just inserted into the first sensing notch 231 close to one end of the second moving motor 226, so as to control the second moving motor 226 to stop rotating; when the receiving portion moves away from the position where the second moving motor 226 is located. The first sensing piece 232 is just inserted into the first sensing notch 231 at the end far away from the second moving motor 226, the second moving motor 226 is controlled to stop rotating again, and the moving stroke of the receiving part in the vertical direction and the switch of the second moving motor 226 are strictly controlled through two stroke switches, so that the sample container is accurately conveyed into the corresponding storage cavity 212.

Further preferably, as shown in fig. 1 to 14, two first thrust pieces 240 are mounted on the first support plate 225, and the two first thrust pieces 240 are respectively mounted on both ends of the first support plate 225 in the vertical moving direction of the receiving portion.

In this embodiment, by providing the first thrust member 240, the moving stroke of the receiving portion in the vertical direction is further controlled, and it is ensured that in the event of failure of the first detecting portion, accurate feeding of the sample container into the corresponding storage chamber 212 can be achieved as well.

Example two

As shown in fig. 1 to 14, the utility model provides a sample collection management system with reservation storage function, further includes that a sample container for receiving the output of the self-service outpatient service body fluid collection machine 100 is arranged between the self-service outpatient service body fluid collection machine 100 and the reservation mechanism 200, and the collection mechanism 300 for conveying the sample container to the reservation mechanism 200 in a centralized manner.

The utility model provides a pair of sample collection management system with reservation storage function, the sample container who gathers self-service machine 100 output through collecting mechanism 300 is concentrated and is received, and in concentrated transport reservation mechanism 200, avoid sample container to gather self-service machine 100 from outpatient service body fluid to transport to reservation mechanism 200 and take place the phenomenon of falling on the one hand, on the other hand avoids the patient to take place to leak when taking sample container in reservation mechanism 200 and takes, the unstable and the broken phenomenon of sample container falls takes place for taking by mistake or taking, and then under the condition that reduces medical staff intensity of labour, and the work efficiency is improved.

Preferably, as shown in fig. 1 to 14, the collecting mechanism 300 comprises a box body 310, and a second inlet 311 for receiving the sample container output by the outpatient body fluid collecting self-service machine 100 and a first outlet 312 for delivering the magazine containing the sample container to the ordering mechanism 200 are arranged on the box body 310, wherein an outlet platform 320 is arranged between the second inlet 311 and the first outlet 312;

a storage structure 330 for storing the cartridges, wherein the storage structure 330 is installed in the box body 310 and is located above or below the discharging platform 320;

the second driving structure 340 is installed on one side of the storage structure 330, and the second driving structure 340 includes an insertion part for transporting the cartridges on the storage structure 330 to the discharging platform 320, and a lifting part and a horizontal moving part for driving the insertion part to move vertically and respectively.

It is further preferable that the number of the storage structures 330 is two, and the two storage structures are respectively located at two sides or the same side of the discharging platform 320, so as to increase the storage space of the cartridges in the box 310.

Further preferably, the translation portion includes a third linear slide 341 installed in the box 310, and a third linear slide 342 slidably connected to the third linear slide 341, wherein the lifting portion is installed on the third linear slide 342.

Further preferably, the lifting part comprises a support 343 installed on the third linear slider 342 and a lifting motor 344 installed on the support 343, and an output end of the lifting motor 344 is connected with a belt wheel structure, wherein the insertion part is connected with a belt in the belt wheel structure, and the rotation of the belt wheel structure drives the insertion part to move up and down.

Further preferably, the socket part comprises a fourth linear guide 345 mounted on the support 343 and a fourth linear slider 346 slidingly connected to the fourth linear guide 345, wherein a fork 347 for plugging the magazine is connected to the fourth linear slider 346.

Preferably, as shown in fig. 1 to 14, the case 310 is further provided with a second outlet 313 to directly output the sample container into the patient's hand.

In this embodiment, the second outlet 313 is disposed on the box body 310, so that the collecting mechanism 300 not only serves as a bridge between the outpatient clinic body fluid collection self-service machine 100 and the appointment mechanism 200, but also serves as an outlet of a sample container when a patient is hospitalized on site, and the sample container is integrally installed in the material box, thereby avoiding the phenomena that the sample container is missed when the patient takes the sample container at the second outlet 313, and the sample container falls and is broken due to wrong taking or unstable taking.

It is further preferable that the number of the second outlets 313 is plural, and the plural second outlets 313 are arranged side by side on the box body 310.

In this embodiment, through increasing the quantity of second export 313, a plurality of patients of being convenient for can carry out taking of sample container simultaneously, shorten patient's time of seeking medical advice greatly, improve patient's experience of seeking medical advice and feel to further improve medical staff's work efficiency.

Preferably, as shown in fig. 1 to 14, the storage structure 330 includes a second conveyor belt 331 for conveying the cartridges to the insertion part, and a first drive motor 332 for driving the second conveyor belt 331 to circumferentially circulate.

Preferably, as shown in fig. 1 to 14, a third conveyor belt 321 for conveying the magazine containing the sample container to the second outlet 313 and a second driving motor 322 for driving the third conveyor belt 321 to rotate circularly are disposed on the discharging platform 320.

Preferably, as shown in fig. 1 to 14, a horizontal pushing structure 350 is disposed above the discharging platform 320, and the position of the horizontal pushing structure 350 corresponds to the position of the second outlet 313, wherein a horizontal pushing portion for pushing the cartridges on the discharging platform 320 to the second outlet 313 is disposed on the horizontal pushing structure 350.

In an embodiment, when the magazine containing the sample containers is transported on the discharging platform 320 through the third conveyor belt 321, when the magazine corresponds to the second outlet 313, the second driving motor 322 stops operating, and at this time, the magazine on the discharging platform 320 is pushed to the second outlet 313 under the action of the flat pushing structure 350, so that the magazine containing the corresponding sample containers can be conveniently taken by a patient at the second outlet 313, and the phenomenon that the sample containers fall and are broken due to leakage or unstable taking is avoided.

Further preferably, the flat pushing structure 350 includes a second support plate 351, on which a driving portion for driving the flat pushing portion to move back and forth is mounted, wherein the flat pushing portion is in rolling fit with the second support plate 351.

In this embodiment, the flat pushing portion and the second support plate 351 are in rolling fit, so that friction between the flat pushing portion and the second support plate 351 is reduced, smoothness of the flat pushing portion when the material box is pushed is guaranteed, and labor is saved.

Further preferably, the driving portion includes a horizontal pushing motor 352 mounted on the second support plate 351, and an output end of the horizontal pushing motor 352 is connected to a pulley structure, wherein one end of the horizontal pushing portion is connected to a belt of the pulley structure, and one end of the horizontal pushing portion is connected to the second support plate 351 in a rolling manner.

Further preferably, the horizontal pushing part comprises a horizontal pushing support 353, and a second roller 354 in rolling fit with the second support plate 351 and a push plate 355 in contact fit with the magazine are mounted on the horizontal pushing support 353.

Preferably, as shown in fig. 1 to 14, a second detection portion for controlling a moving stroke of the horizontal pushing portion is mounted on the second support plate 351, and the second detection portion includes two second sensors 356, and the two second sensors 356 are mounted at two ends of the horizontal pushing support 353 along a moving direction of the horizontal pushing portion, wherein a second sensing notch 3561 is provided in the second sensor 356, and is in plug-in fit with a second sensing tab 357 mounted on the horizontal pushing support 353.

In this embodiment, through the insertion and engagement between the second sensing notch 3561 and the second sensing tab 357 in the second sensor 356, a "travel switch" is formed at each of the two ends of the second support plate 351, and when the flat push portion moves to a position close to the flat push motor 352, the second sensing tab 357 is just inserted into the second sensing notch 3561 close to one end of the flat push motor 352, so as to control the flat push motor 352 to stop rotating; when the flat-pushing part moves to a position close to the second outlet 313, the second sensing piece 357 is just inserted into the second sensing notch 3561 close to one end of the second outlet 313, the flat-pushing motor 352 is controlled to stop rotating again, and the moving stroke of the flat-pushing part and the opening and closing of the flat-pushing motor 352 are strictly controlled through two stroke switches, so that the accuracy of the flat-pushing part in pushing the material box is ensured.

Further preferably, as shown in fig. 1 to 14, two second thrust pieces 358 are mounted on the second support plate 351, and the two second thrust pieces 358 are respectively mounted on both ends of the second support plate 351 in the moving direction of the horizontal pushing portion.

In the embodiment, by providing the second thrust piece 358, the moving stroke of the flat pushing part is further controlled, so that in the case of failure of the second detection part, smooth and reliable pushing of the cartridge to the second outlet 313 can be realized.

Preferably, as shown in fig. 1 to 14, the number of the horizontal pushing structures 350 is multiple, and the position of each horizontal pushing structure 350 corresponds to the position of the second outlet 313 one by one.

Preferably, as shown in fig. 1 to 14, a box separating structure 360 is installed at one end of the discharging platform 320, and the box separating structure 360 includes a blanking bracket 361 having a feeding opening 3611 and a blanking opening 3612, and a box separating portion for separating stacked boxes one by one is provided at an edge of the blanking opening 3612, wherein the blanking opening 3612 is opposite to the discharging platform 320.

In this embodiment, for the utilization ratio that improves storage space in storage structure 330, need add up a plurality of magazines and stack, form and stack the magazine, and the magazine uses one by one in the use, consequently, for the magazine that stacks in storage structure 330 is transformed into single magazine on ejection of compact platform 320, need divide the box to stacking the magazine and handle, and divide the automatic box that divides that can realize stacking the magazine of box structure 360, need not medical personnel and manually divide the box, improve efficiency and the reliability of dividing the box.

Further preferably, the box-dividing part comprises a plurality of box-dividing columns 362 rotating synchronously along the edge of the blanking opening 3612, and one end surface of each box-dividing column 362 is provided with threads, wherein the thread pitch between adjacent threads is consistent with the thickness of the edge of the opening end of the material box.

In this embodiment, the screw pitch is consistent with the thickness of the edge of the opening end of the material box, so that the stacked material boxes descend to the height of the thickness of the edge of the opening end of one material box every time the material box column 362 rotates for one circle, and the stacked material boxes are separated from the screw thread on the material box column 362 until the edge of the opening end of the lowest material box leaves the screw thread, so that the stacked material boxes can enter the discharging platform 320 through the blanking port 3612, and the operation is convenient and reliable.

Further preferably, the other end of the box-dividing column 362 is nested with a synchronizing wheel 363, wherein two adjacent synchronizing wheels 363 are connected through a belt.

Further preferably, a plurality of vertical shelves 364 are disposed along the edge of the blanking opening 3612, and the feeding opening 3611 and the blanking opening 3612 are respectively located at two ends of the vertical shelves 364.

In the embodiment, the vertical rail 364 is arranged and used as a guide structure for the stacked material boxes in the descending process, so that the reliability of box separation is improved.

It is further preferred that the vertical rail 364 on the side closer to the push-flat structure 350 is shorter in length and the vertical rail 364 on the side farther from the push-flat structure is longer in length.

Preferably, as shown in fig. 1 to 14, a third detecting portion for controlling a vertical moving stroke of the inserting portion is mounted on the supporting seat 343, and the third detecting portion includes two third sensors 348, wherein a position of one third sensor 348 corresponds to a position of a discharging end of the storage structure 330, and a position of the other third sensor 348 corresponds to a position of a feeding end of the box separating structure 360, wherein a third sensing notch 3481 is formed in the third sensor 348, and is inserted and matched with a third sensing piece 349 mounted on the shifting fork 347.

In this embodiment, the third sensing notch 3481 of the third sensor 348 is engaged with the third sensing strip 349, so as to precisely position the shifting fork 347 and control the switch of the lifting motor 344.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (10)

1. A sample collection management system with an appointment storage function is characterized by comprising:

the reservation mechanism comprises a cabinet body, wherein the cabinet body is provided with a first inlet for receiving a sample container, a storage cavity for storing the sample container and a control screen for unlocking and opening the corresponding storage cavity, two adjacent storage cavities are separated by a partition plate, and each storage cavity is provided with a door plate with an ejection function; the first driving structure is provided with a receiving part for receiving the sample container at the first inlet and a moving part for driving the receiving part to place the sample container into the corresponding storage cavity.

2. The specimen collection management system with reservation storage function of claim 1, wherein a first conveyor belt for conveying the specimen container to the receiving portion is provided at the first entrance.

3. The system for managing specimen collection with a reservation storage function according to claim 1, wherein the moving part includes a first moving part for driving the receiving part to move left and right, a second moving part for driving the receiving part to move back and forth, and a third moving part for driving the receiving part to move up and down.

4. The specimen collection and management system with a reservation storage function according to claim 3, wherein the third moving portion includes a first support plate attached to the second moving portion, and a first driving portion for driving the receiving portion to reciprocate is attached to the first support plate, and wherein the receiving portion is in rolling engagement with the first support plate.

5. The sample collection management system with the appointment storage function according to any one of claims 1 to 4, wherein a sample container for receiving the output of the self-service outpatient body fluid collection machine is arranged between the self-service outpatient body fluid collection machine and the appointment mechanism, and the sample container is conveyed to a collection mechanism of the appointment mechanism in a centralized manner.

6. The specimen collection management system with reservation storage function of claim 5, wherein the collection mechanism comprises:

the box body is provided with a second inlet used for receiving the sample container output by the outpatient clinic body fluid collecting self-service machine and a first outlet used for conveying the material box filled with the sample container to the reservation mechanism, wherein a discharging platform is arranged between the second inlet and the first outlet;

the storage structure is used for storing the material box, is arranged in the box body and is positioned above or below the discharging platform;

the second driving structure is installed on one side of the storage structure and comprises an inserting part for carrying the material box on the storage structure to the discharging platform, a lifting part and a translation part for respectively driving the inserting part to vertically move and horizontally move.

7. The specimen collection management system with the reservation storage function according to claim 6, wherein the case is further provided with a second outlet for directly outputting the specimen container.

8. The specimen collection management system with the reservation storage function according to claim 6, wherein a horizontal pushing structure is provided above the discharging platform, and the position of the horizontal pushing structure corresponds to the position of the second outlet, wherein a horizontal pushing portion for pushing the material box on the discharging platform to the second outlet is provided on the horizontal pushing structure.

9. The system for sample collection and management with the storage appointment function according to claim 6, wherein a box separation structure is installed at one end of the discharging platform, and the box separation structure comprises a blanking bracket with a feeding port and a discharging port, and a box separation part for separating the stacked material boxes one by one is arranged along the edge of the discharging port, wherein the discharging port is opposite to the discharging platform.

10. The specimen collection management system with the reservation storage function according to claim 9, wherein the sub-cartridge portion comprises a plurality of sub-cartridge columns which rotate synchronously along the edge of the blanking opening, and one end surfaces of the sub-cartridge columns are provided with threads, wherein the pitch between adjacent threads is consistent with the thickness of the edge of the opening end of the cartridge.

Images