CN113320886A

CN113320886A - Specimen transfer device

Info

Publication number: CN113320886A
Application number: CN202110726380.7A
Authority: CN
Inventors: 孟凡娜; 孙丽; 陈宗涛
Original assignee: First Affiliated Hospital of PLA Military Medical University
Current assignee: Nanfang Hospital; First Affiliated Hospital of PLA Military Medical University
Priority date: 2021-06-29
Filing date: 2021-06-29
Publication date: 2021-08-31

Abstract

The invention relates to the field of transfer devices, and discloses a specimen transfer device which comprises a transfer mechanism arranged among floors and specimen receiving ports arranged on the floors, wherein the transfer mechanism comprises a transfer wheel and a transfer belt, the transfer belt is connected with a specimen temporary storage box, a supporting component and a storage component are arranged in the specimen temporary storage box, the supporting component is slidably connected in the specimen temporary storage box, the storage component comprises a specimen storage rack, the specimen storage rack is rotatably connected to the supporting component, a plurality of specimen storage grooves are formed in the specimen storage rack, and balancing weights are arranged at the bottoms of the specimen storage grooves. The invention solves the problems of poor timeliness and poor safety in the specimen transfer process in the prior art.

Description

Specimen transfer device

Technical Field

The invention relates to the field of transfer devices, in particular to a specimen transfer device.

Background

In clinical diagnosis and treatment or physical examination, blood samples are usually tested. The blood sample inspection work mainly includes links such as collection of blood sample, storage of blood sample, the transportation of blood sample and the detection of blood sample, and error appears in any one of them link, all can influence the testing result. At present, carry out the blood sample collection back to the patient at medical personnel, will place blood sample in general and keep in on the sample frame of one side, then collect the sample by the regular coming of doctor of clinical laboratory and examine. The current blood sample transferring mode has the following problems: 1. the manpower consumption is big: because the daily blood sample collection amount of a hospital is large, a doctor of a clinical laboratory is required to collect samples from floors repeatedly, so that the workload of the doctor is increased, the time originally belonging to the examination work is wasted, and the efficiency of sample examination is influenced; 2. untimely transfer: at present, blood samples are usually accumulated to a certain amount, and then a doctor receives the blood samples regularly, so that the problem of untimely sample transfer is caused; 3. poor transfer security: at present, when the sample is transferred, usually the doctor holds the collection frame and directly takes away the sample frame, the problem that the sample topples over easily appears on the one hand in the process, on the other hand owing to be the normal atmospheric temperature and shift, if the time is longer slightly then can produce the influence to the quality of sample, and then influence the testing result of blood sample. In summary, there is a need to develop a novel specimen transporter with good timeliness and safety.

Disclosure of Invention

The invention aims to provide a specimen transfer device to solve the problems of poor timeliness and poor safety in the specimen transfer process in the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: sample transfer device, including setting up transport mechanism between each floor and setting up the sample receiving opening on each floor, transport mechanism includes transfer gear and conveyer belt, the conveyer belt is connected with sample temporary storage case, the incasement is provided with supporting component and deposits the subassembly to sample temporary storage, supporting component sliding connection is in sample temporary storage incasement, it includes the sample storage rack to deposit the subassembly, the sample storage rack rotates to be connected on supporting component, be provided with a plurality of sample storage tanks in the sample storage rack, the bottom of sample storage tank is provided with the balancing weight.

The principle and the advantages of the scheme are as follows: during practical application, among this technical scheme, to the problem that exists in the present blood sample transportation, designed a sample transfer device. Usually in the academy, the blood sampling district of each floor all sets up in the same position of different floors, sets up the sample receiving port in the blood sampling district for on placing transport mechanism with the blood sample of gathering the completion, through control transfer wheel rotate whether and the direction of rotation of transfer wheel, drive conveyer belt and sample temporary storage case longitudinal movement between each floor, the realization carries out the transportation between the floor to the blood sample. The sample transfer box is used for temporarily storing the collected blood sample, and when the sample transfer box is used, the supporting component is pulled out from the sample temporary storage box, the sample tube (for storing the blood sample) is placed in the sample storage tank, and then the supporting component is reversely pushed into the sample temporary storage box, so that the placing process is very convenient. Through setting up the balancing weight in the bottom of sample storage tank, and set the sample storage rack to the mode of being connected with the supporting component rotation, can guarantee that sample storage rack and blood sample are in fore-and-aft state all the time, avoid being in horizontal or the tilt state and cause the excessive problem of blood sample at the in-process that blood sample shifted because of the sample cell, guarantee the security of blood sample transfer in-process.

The beneficial effects of this technical scheme lie in:

1. this technical scheme changes the artifical transportation among the prior art, but utilizes transfer gear, conveyer belt and sample temporary storage case to carry out the machinery and transports, compares in artifical the transportation, greatly reduced doctor's working strength, saved the time of doctor on the sample transportation way moreover, makes the doctor have more time to go to carry out inspection work, promotes the inspection efficiency of hospital.

2. This technical scheme utilizes machinery to transport, and medical personnel in the district can start the transfer gear at any time and rotate when gathering, realizes the real-time transportation of sample, has improved the promptness that blood sample transported.

3. This technical scheme can guarantee the security that the sample was transported through setting up the sample case of keeping in temporary storage, and set up the balancing weight through the bottom at the sample storage tank, and set the sample storage rack to the mode of being connected with the supporting component rotation, can guarantee that sample storage rack and blood sample are in fore-and-aft state all the time, avoid causing the excessive problem of blood sample because of the sample tube is in horizontal or tilt state at the in-process that blood sample shifts, further guarantee the security of blood sample transfer in-process.

Preferably, as an improvement, the one end that the conveyer belt was kept away from to the sample case of keeping in is provided with the chamber door, and the sample is kept in the incasement and is provided with the refrigeration layer.

Among this technical scheme, through setting up the chamber door and keeping away from one side of conveyer belt (setting in the one side just to the sample receiving opening promptly) at sample temporary storage case, can make things convenient for medical personnel to get and put blood sample. In addition, the refrigeration layer is arranged in the sample temporary storage box, so that the blood sample in the sample temporary storage box can be refrigerated and transferred in real time; and after medical personnel's blood specimen collection accomplished, also can keep in the sample with blood sample earlier and keep in the case and refrigerate, wait to accumulate to a certain amount after the batch shifts, avoid the sample rotten.

Preferably, as an improvement, the supporting component includes two supporting blocks and two spouts, and two spouts are just to setting up, and sliding connection is in the spout respectively to the supporting block, and the sample storage rack rotates to be connected between two supporting blocks.

Among this technical scheme, supporting component is used for supporting and deposits the subassembly, can realize depositing the pull of subassembly simultaneously and get and put, through setting up its form that combines the supporting shoe into the spout, simple structure, the installation degree of difficulty is low.

Preferably, as an improvement, the one end that the supporting shoe is close to the chamber door all is provided with the pull handle, and the one end that the chamber door was kept away from to the supporting shoe is provided with first magnet piece, and the inner wall of sample temporary storage case is provided with the second magnet piece that adsorbs mutually with first magnet piece.

Among this technical scheme, through set up first magnet piece, the second magnet piece of mutual absorption between sample case of keeping in and supporting shoe, after blood sample is placed, with the supporting shoe to the inside promotion of sample case of keeping in for the supporting shoe adsorbs to be fixed on the inner wall of sample case of keeping in, avoids it to slide along the spout in the transfer process, improves the stability of sample transportation in-process.

Preferably, as an improvement, the specimen storage box is provided with an adjusting panel for adjusting the temperature of the refrigerating layer.

In this technical scheme, can also adjust the refrigeration temperature on refrigeration layer through adjusting the panel to adjust the sample and deposit the temperature of incasement for the sample case of keeping in can be adjusted to best transportation temperature in advance when being applied to other samples and transporting, improves the application scope of sample case of keeping in.

Preferably, as a refinement, the conveyor wheel is provided with a first tooth wheel along the circumferential direction, and the conveyor belt is provided with a second tooth wheel which can be meshed with the first tooth wheel.

Among this technical scheme, through the meshing of first rodent and second rodent, can make the synchronism that transfer gear and conveyer belt removed better, avoid appearing the phenomenon of skidding.

Preferably, as an improvement, the chute is provided with a limiting block at one end close to the box door.

In this technical scheme, the stopper that the spout outer end set up for the stroke distance to the supporting shoe is injectd, avoids it to remove excessively and breaks away from with the spout, guarantees the stable connection between the part.

Preferably, as an improvement, a reminder assembly is provided at the specimen receiving opening.

Among this technical scheme, through setting up in sample receiving port department and reminding the subassembly, when it senses sample temporary storage case and reachs, can play the effect of suggestion, the medical personnel who reminds corresponding window in time take out the blood sample that treats the detection or remind medical personnel can put into sample temporary storage case with the sample.

Drawings

Fig. 1 is a front view of a standard transfer device according to a first embodiment of the present invention.

Fig. 2 is a front view of the specimen deposit box of fig. 1.

Fig. 3 is a longitudinal sectional view of fig. 2.

Fig. 4 is a side view of the support block of fig. 3.

Fig. 5 is a front view of the specimen deposit box according to the second embodiment of the present invention.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: sample receiving opening 1, transfer gear 2, conveyer belt 3, sample temporary storage case 4, chamber door 5, supporting shoe 6, spout 7, stopper 8, first magnet piece 9, second magnet piece 10, pull handle 11, sample storage rack 12, sample storage tank 13, balancing weight 14, adjusting panel 15, automatically controlled button 16.

Example one

This embodiment is substantially as shown in figure 1: sample transfer device, including setting up transport mechanism between each floor and setting up the sample receiving opening 1 in each floor blood sampling district, the blood sampling district is located the same region of different floors.

The transport mechanism comprises a transport wheel 2 and a transport belt 3. The two conveying wheels 2 are respectively connected above the sample receiving opening 1 on the upper layer and below the sample receiving opening 1 on the lower layer in a rotating manner. The lower conveying wheel 2 is connected with a driving motor through a coupler, and an electric control button 16 for controlling the driving motor to rotate forwards or backwards is arranged at each specimen receiving opening 1. The circumference outer fringe circumference of transfer wheel 2 is provided with the first rodent of a circle, and the internal surface of conveyer belt 3 bonds has the second rodent (not shown in the figure) with the meshing of first rodent, and the synchronism of transmission can be guaranteed through the meshing of first rodent and second rodent to conveyer belt 3 and transfer wheel 2.

The conveyer belt 3 is kept away from and is fixed with sample case 4 on the side (the lateral surface) of second rodent, combines fig. 2 to show, and sample case 4 is kept away from the one end of conveyer belt 3 and is connected with chamber door 5 through hinge rotation, and the inside of sample case 4 is provided with the refrigeration layer (not shown in the figure), and the refrigeration on refrigeration layer in this embodiment is kept away from for the refrigeration principle of refrigerator among the prior art the same, does not do not describe here any more. The inside of sample temporary storage case 4 is provided with the supporting component and deposits the subassembly.

The supporting component plays a supporting role, and is shown in combination with fig. 3, the supporting component comprises two supporting blocks 6 and two sliding chutes 7, the two sliding chutes 7 are transversely arranged and are respectively bonded and fixed on two side walls of the specimen temporary storage box 4 (on two side walls adjacent to the box door 5), and as shown in combination with fig. 4, one ends (right ends) of the sliding chutes 7 close to the box door 5 are respectively bonded and fixed with limiting blocks 8. Two supporting blocks 6 are respectively in sliding connection spout 7, and bond on the rear wall of supporting block 6 has first magnet piece 9, bond on the rear wall of sample temporary storage case 4 have can with the adsorbed second magnet piece 10 of first magnet piece 9 mutually, the one end that supporting block 6 is close to chamber door 5 all bonds with pull handle 11.

Deposit the subassembly including the sample storage rack 12 of horizontal setting, the both ends of sample storage rack 12 rotate respectively and connect on supporting shoe 6, are provided with a plurality of vertical sample storage tanks 13 on the sample storage rack 12, and the bottom of sample storage tank 13 has all bonded balancing weight 14.

The specific implementation process is as follows: the upper layer of the blood sampling area is used for detecting a blood sample, and the lower layer of the blood sampling area is used for collecting the blood sample. After the blood sample collection finishes, medical personnel press the automatically controlled button 16 for driving motor starts and forward rotation, and transfer gear 2 drives conveyer belt 3 and removes this moment, and then drives sample case 4 and from last to moving down, when sample case 4 removed to corresponding sample receiving port 1 department, closed driving motor.

Then operating personnel opens chamber door 5, outwards pull out supporting shoe 6 through pull handle 11, and then make sample storage rack 12 move outside 4 cases of keeping in the sample, medical personnel place the blood sample of having gathered in sample storage tank 13, then inwards promote supporting shoe 6, make supporting shoe 6 and sample storage rack 12 remove in 4 cases of keeping in the sample, make the second magnet piece 10 of the first magnet piece 9 on the supporting

shoe

6 and 4 back lateral walls of keeping in the sample adsorb mutually, realize the relatively fixed of blood sample position, avoid it to slide along spout 7 in the transfer process, improve the stability of sample transfer in-process.

Then close chamber door 5, start driving motor through automatically controlled button 16 once more for driving motor antiport, and then drive sample temporary storage case 4 from supreme sample receiving opening 1 department that moves to the upper strata down, the doctor of clinical laboratory takes out the blood sample and inspects can. At the in-process that blood sample shifted, through set up balancing weight 14 in the bottom of sample storage tank 13, and set sample storage rack 12 to the mode of being connected with the supporting component rotation, can guarantee that sample storage rack 12 and blood sample are in fore-and-aft state all the time, even rock the circumstances such as appearing in the in-process of shifting, also can avoid causing the excessive problem of blood sample because of the sample cell is in horizontal or tilt state at blood sample.

This technical scheme changes the artifical transportation among the prior art, but utilizes transfer gear 2, conveyer belt 3 and sample case 4 of keeping in to carry out the machinery and transports, compares in artifical the transportation, greatly reduced doctor's working strength, saved the time of doctor on the sample transport road in addition, makes the doctor have more time to go to carry out inspection work, promotes the inspection efficiency of hospital.

Example two

As shown in fig. 5, the present embodiment is different from the first embodiment in that: in this embodiment, the specimen storage box is provided with an adjusting panel 15 for adjusting the temperature of the refrigerating layer.

In this embodiment, can adjust the refrigeration temperature on refrigeration layer through adjusting panel 15 to adjust the sample and deposit the temperature of incasement for sample case 4 can be adjusted to best transportation temperature in advance when being applied to other samples and transporting, improves sample case 4's application scope.

EXAMPLE III

The difference between the present embodiment and the first embodiment is: in this embodiment, the sample receiving port 1 is provided with a reminding assembly. The reminding component comprises an infrared sensor, a controller and a buzzer. The controller in this embodiment is a PLC controller, and the principle of the infrared sensor and the signal connection mode between the infrared sensor and the controller are the prior art. Infrared ray sensor installs the lateral part at sample receiving port 1, and infrared ray sensor and controller signal connection after infrared ray sensor has sensed 4 arrival signals of sample temporary storage case, can give the controller with this arrival signal transmission, and the controller can control the buzzer and start, sends the buzzer, reminds relevant medical personnel to take out blood sample, can guarantee that the sample takes out the promptness that detects.

The foregoing is merely an example of the present invention and common general knowledge in the art of designing and/or characterizing particular aspects and/or features is not described in any greater detail herein. It should be noted that, for those skilled in the art, without departing from the technical solution of the present invention, several variations and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims

1. Sample transfer device, its characterized in that: including setting up transport mechanism between each floor and setting up the sample receiving opening on each floor, transport mechanism includes transfer gear and conveyer belt, the conveyer belt is connected with sample temporary storage case, the incasement is provided with supporting component and deposits the subassembly in the sample temporary storage, and supporting component sliding connection deposits the subassembly and includes the sample storage rack in the sample temporary storage incasement, and the sample storage rack rotates to be connected on supporting component, is provided with a plurality of sample storage tanks in the sample storage rack, and the bottom of sample storage tank is provided with the balancing weight.

2. The specimen transport device according to claim 1, wherein: the one end that the conveyer belt was kept away from to the sample case of keeping in is provided with the chamber door, is provided with the refrigeration layer in the sample case of keeping in.

3. The specimen transport device according to claim 2, wherein: the supporting component comprises two supporting blocks and two sliding grooves, the two sliding grooves are arranged just opposite to each other, the supporting blocks are connected in the sliding grooves in a sliding mode respectively, and the specimen storage rack is connected between the two supporting blocks in a rotating mode.

4. The specimen transport device according to claim 3, wherein: the one end that the supporting shoe is close to the chamber door all is provided with the pull handle, and the one end that the chamber door was kept away from to the supporting shoe is provided with first magnet piece, and the inner wall of sample temporary storage case is provided with the second magnet piece that adsorbs mutually with first magnet piece.

5. The specimen transport device according to claim 4, wherein: and an adjusting panel for adjusting the temperature of the refrigerating layer is arranged on the specimen storage box.

6. The specimen transport device according to claim 5, wherein: the conveying belt is provided with a first engaging tooth and a second engaging tooth which can be meshed with the first engaging tooth.

7. The specimen transport device according to claim 6, wherein: and one end of the sliding chute, which is close to the box door, is provided with a limiting block.

8. The specimen transport device according to claim 7, wherein: the sample receiving opening is provided with a reminding assembly.