CN210230697U - Automatic scanning device for testing sample container - Google Patents

Abstract

The utility model provides an inspection sample container automatic scanning device, including the V-arrangement groove structure, be located the scanner of V-arrangement groove structure top and be located the letter sorting passageway of V-arrangement groove structure below, narrow V-arrangement groove under the upper width that the V-arrangement groove structure includes fixed swash plate, adjustable fender and roller bearing formation, the roller bearing is located the bottom in V-arrangement groove, is equipped with big or small adjustable gap between adjustable fender lower extreme and the roller bearing, and the gap between adjustable fender and the roller bearing is just to the entry of letter sorting passageway. The utility model drives the test sample container to rotate by arranging the rolling shaft, and ensures that the scanner can completely scan the complete scanning code to obtain complete scanning information; the reliability of scanning and sorting is ensured by controlling the opening/closing of the movable baffle; the automatic scanning device is controlled by the controller to automatically scan and inspect the sample containers in sequence, and the automatic sorting device is matched to realize automatic sorting, so that the automatic scanning device is convenient to operate and reliable in work.

Description

Automatic scanning device for testing sample container

Technical Field

The utility model belongs to the technical field of the inspection utensil, a information acquisition technique of inspection sample container is related to, concretely relates to inspection sample container automatic scanning device.

Background

At present, in the diagnosis and treatment activities of a medical institution, body fluid samples of patients need to be collected for detection, for example, blood, urine, saliva and other test samples, and the common way is that the medical institution issues corresponding body fluid collection containers (for example, test tubes) and bar codes carrying relevant information of the patients to the patients, and medical staff or the patients themselves stick the bar codes to the corresponding test sample containers; after the sample is collected, the bar code is scanned to obtain the identity information (including name, sex, age, social security information and the like) of the patient and the collection information (including collection type, collection time, detection type and the like) of the detection sample; according to the acquired relevant information, medical staff generally classify according to information such as patient identity, collection type, inspection type and the like, so that the inspection sample containers are sent to corresponding inspection departments to be inspected or are sequentially processed in batches according to different collection time. At present, the information collection and sorting work of the sample container is mostly finished manually, and the workload of medical staff is quite large.

A great number of medical institutions also adopt various classified collection of test samples, one patient usually needs to test different items, and the detection of each item needs to be completed through multiple operations, so that a great amount of time and energy are spent, the time and the labor are consumed, and the medical experience is poor.

The method which only depends on manual collection and sorting cannot meet the requirements of modern medical treatment, not only is time and labor consumed, but also the manual information collection and sorting efficiency is low, the error rate is high, and the doctor-patient contradiction is easy to cause; on the other hand, the timeliness and timeliness of the inspection sample also provide challenges for the information collection and sorting work of the existing inspection sample container. Some test tube classification equipment also appears at present, and most have the defect such as complicated structure, with high costs, inefficiency or degree of automation is low, application scope is narrow, can't fully satisfy the demand of modern medical development.

The realization of automatic scanning of the sample containers is a key link for realizing automatic sorting of the automatic sample containers.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides an inspection sample container automatic scanning device.

The utility model discloses the technical scheme who adopts does:

the utility model provides an inspection sample container automatic scanning device, includes V-arrangement groove structure (21) and scanner (22) that are located V-arrangement groove structure top, V-arrangement groove structure (21) are including fixed swash plate (211), V-arrangement groove narrow about wide that adjustable fender (212) and roller bearing (213) formed, roller bearing (213) are located the bottom in V-arrangement groove, inspection sample container arranges V-arrangement groove bottom in, be equipped with the gap of size adjustable between adjustable fender (212) lower extreme and the roller bearing (213).

The automatic scanning device for the inspection sample container further comprises a sorting channel (25) positioned below the V-shaped groove structure (21), a gap between the movable baffle plate (212) and the rolling shaft (213) is just opposite to an inlet arranged at the upper part of the sorting channel (25), and an outlet is arranged at the bottom of the sorting channel (25).

The automatic scanning device for the test sample container also comprises a first motor (23) for driving the roller (213) to rotate, and an output shaft of the first motor (23) is connected to one end of the roller (213).

In the automatic scanning device for the inspection sample container, patterns or stripes for increasing the friction force on the surface of the roller are arranged on the surface of the roller (213).

The automatic scanning device for the test sample container also comprises a second motor (24) for driving the movable baffle (212) to rotate, and the upper end of the movable baffle (212) is fixed on an output shaft of the second motor (24).

In the automatic scanning device for the test sample containers, the second motor (24) can drive the movable baffle (212) to rotate and keep at the first position or the second position, the gap between the movable baffle (212) and the roller (213) at the first position is smaller than the diameter of the test sample container, and the gap between the movable baffle (212) and the roller (213) at the second position is larger than the diameter of the test sample container.

In the automatic scanning device for the test sample container, the lower end of the fixed inclined plate (211) is positioned above the roller (213) in an inclined mode and is not contacted, and the gap between the fixed inclined plate (211) and the roller (213) is smaller than the diameter of the test sample container.

The automatic scanning device for the test sample container further comprises a second motor (24) for driving the movable baffle (212) to rotate, the upper end of the movable baffle (212) is fixed on an output shaft of the second motor (24), and the lower end of the movable baffle (212) is positioned obliquely below the roller (213) and is not contacted with the roller; the second motor (24) can drive the movable baffle (212) to rotate and keep at a first position or a second position, the gap between the movable baffle (212) and the roller (213) at the first position is smaller than the diameter of the test sample container, and the gap between the movable baffle (212) and the roller (213) at the second position is larger than the diameter of the test sample container.

In the automatic scanning device for the inspection sample container, the scanning head of the scanner (22) faces to the bottom of the V-shaped groove, and the scanning area of the scanner (22) covers the bottom area of the V-shaped groove.

The automatic scanning device for the test sample container also comprises a controller (40), and the scanner (22), the first motor (23) and the second motor (24) are respectively and electrically connected to the controller (40).

The utility model has the advantages that: the utility model discloses a controller control automatic scanning device automatic scanning inspection sample container in proper order to cooperate automatic sorting device to realize automatic sorting, convenient operation, reliable operation; the utility model drives the test sample container to rotate by arranging the rolling shaft, and ensures that the scanner can completely scan the complete scanning code to obtain complete scanning information; by controlling the rotation of the movable baffle, the time for detecting the sample container to fall into the automatic sorting device is ensured, and the reliability of scanning and sorting is ensured.

Drawings

Fig. 1 is a schematic structural diagram of an automatic scanning device according to the present invention;

FIG. 2 is a transverse cross-sectional view of a V-groove configuration;

fig. 3 is a schematic diagram of the electrical connection relationship of the automatic scanning device of the present invention.

The reference numbers in the figures denote:

20-an automatic scanning device;

21-V-shaped groove structure, 211-fixed inclined plate, 212-movable baffle plate and 213-rolling shaft; 22-a scanner; 23-a first motor, 24-a second motor; 25-a sorting channel;

and 40, a controller.

Detailed Description

The following describes the automatic scanning device for testing sample containers according to the present invention in detail with reference to the following embodiments and accompanying drawings.

The utility model discloses an embodiment of inspection sample container automatic scanning device is shown in FIG. 1 for automatic scanning inspection sample container, for follow-up automatic sorting operation preparation, including V-arrangement groove structure 21, be located the scanner 22 of V-arrangement groove structure 21 top and be located the letter sorting passageway 25 in V-arrangement groove structure 21 below, wherein:

the V-shaped groove structure 21 includes a V-shaped groove with a wide top and a narrow bottom formed by a fixed inclined plate 211, a movable baffle 212 and a roller 213, the roller 213 is located at the bottom of the V-shaped groove, the test sample container is placed at the bottom of the V-shaped groove, a gap with adjustable size is arranged between the movable baffle 212 and the roller 213, and the test sample container entering the V-shaped groove simultaneously contacts the fixed inclined plate 211, the movable baffle 212 and the roller 213.

The V-groove structure 21 further includes a first motor 23 and a second motor 24, one end of the roller 213 is connected to an output shaft of the first motor 23, the first motor 23 can drive the roller 213 to rotate and drive the test sample container contacting the roller 213 to rotate, so as to facilitate the scanner 22 to scan the scan code of the test sample container, preferably, the surface of the roller 213 is roughened, for example, the surface of the roller 213 is engraved with stripes or patterns, or roughened, to increase friction force and ensure that the test sample container can be driven to rotate; the movable baffle 212 is fixed on the output shaft of the second motor 24 and can rotate along with the rotation of the second motor 24, so as to adjust the size of the gap between the movable baffle 212 and the roller 213.

Preferably, the lower end of the fixed inclined plate 211 is positioned obliquely above the roller 213 and is not in contact with the roller, the lower end of the movable baffle 212 is positioned obliquely below the roller 213 and is not in contact with the roller, and the gap between the fixed inclined plate 211 and the roller 213 is smaller than the diameter of the test sample container, so as to prevent the test sample container from falling from the gap and ensure that the test sample container is always positioned on one side of the movable baffle 212; in one embodiment, the flapper 212 has two positions, a first position and a second position, and the second motor 24 can drive the flapper 212 to rotate to maintain the first position or the second position, wherein the gap between the flapper 212 and the roller 213 in the first position is smaller than the diameter of the test sample container, and the gap between the flapper 212 and the roller 213 in the second position is larger than the diameter of the test sample container. The second motor 24 may drive the flapper 212 between the first and second positions to hold the test sample containers at the bottom of the V-shaped groove or to move the test sample containers through the sorting passage 25 into the sorting bucket of the automated sorting apparatus.

The sorting passage 25 is a conveying passage for inspecting the sample containers, the inlet of the passage is opposite to the gap between the movable baffle 212 and the roller 213, and the outlet of the sorting passage 25 is aligned with the position of the sorting barrel of the automatic sorting device. When the flapper 212 is rotated by the second motor 24, the gap between the flapper 212 and the roller 213 is larger than the diameter of the test sample container, which enters the sorting passage 25 from the gap formed by the flapper 212 and the roller 213. The sorting channel 25 can be directly connected to the V-shaped groove structure 21 or not contacted with the V-shaped groove structure 21, so that the outlet of the sorting channel 25 is just opposite to the gap between the movable baffle 212 and the roller 213.

The scanner 22 is a commercially available mature product and is available by outsourcing. The scanner 22 is installed above the V-shaped groove structure 21 and is used for scanning the scanning code of the test sample container falling into the V-shaped groove, so as to obtain the scanning information (including the identity information of the patient and the test sample collecting information) of the scanning code, and transmitting the collected scanning information to the controller 40, and the controller 40 controls the automatic sorting device to transfer the sorting bucket with the corresponding number to the outlet of the sorting channel 25 according to the obtained scanning information; controlling the second motor 24 to drive the movable baffle 212 to open, so that the test sample container falls into the corresponding sorting barrel from the sorting channel 25; waiting for the next test sample container to be scanned.

Preferably, the scanning head of the scanner 22 is oriented toward the bottom of the V-groove, and the scanning area of the scanner 22 is selected to cover the bottom area of the V-groove, so that the scanner 22 can scan the scan code of the test sample container.

The automatic scanning device 20 may be fixed to a fixed support frame, and under the control of the controller 40, the automatic scanning device 20 cooperates with the automatic sorting device to perform an automatic sorting operation on the inspected sample containers. The controller 40 is provided with a network interface through which the controller 40 is externally connected to a management information system and transmits the acquired scanning information to the management information system.

The components form the automatic scanning device for the inspection sample container according to the connection relationship, the automatic scanning device 20 is controlled by the controller 40 to automatically scan the inspection sample container in sequence, and the automatic sorting device is matched to realize automatic sorting, so that the automatic scanning device is convenient to operate and reliable in work; the roller 213 is arranged to drive the test sample container to rotate, so as to ensure that the scanner 22 can completely scan a complete scanning code to obtain complete scanning information; by controlling the opening/closing of the movable baffle 212, the reliability of scanning and sorting is ensured.

The automatic scanning process for inspecting sample containers based on the automatic scanning device 20 includes the following steps:

in the first step, the controller 40 controls the second motor 24 to drive the movable baffle 21 to rotate to the first position, controls the first motor 23 to drive the roller 213 of the automatic scanning device 20 to rotate, and the scanner 22 obtains the scanning information of the test sample container at the bottom of the V-shaped groove and transmits the scanning information to the controller 40.

The scanning information comprises identity information of a patient, including name, gender, age, social security information and the like, and examination sample collection information, including collection type, collection time, examination type and the like.

And step two, the controller 40 receives the in-place information of the sorting bucket of the automatic sorting device, and controls the second motor 24 of the automatic scanning device 20 to drive the movable baffle 212 to rotate to the second position, so that the inspection sample container falls into the corresponding sorting bucket of the automatic sorting device through the sorting channel 25.

The utility model discloses automatic scanning device, cooperation automatic sorting device work can realize the automatic scanning and the letter sorting of inspection sample container, and the good reliability, work efficiency is high, and the letter sorting accuracy is good, can use in fields such as medical treatment.

It will be understood by those skilled in the art that these examples are given solely for the purpose of illustration and are not intended to limit the scope of the invention, and that various equivalent modifications and adaptations of the invention are intended to fall within the scope of the invention disclosed herein.

Claims (10)

1. The utility model provides an inspection sample container automatic scanning device, characterized in that, including V-arrangement groove structure (21) and scanner (22) that are located V-arrangement groove structure top, V-arrangement groove structure (21) are including fixed swash plate (211), V-arrangement groove narrow about wide that adjustable fender (212) and roller bearing (213) formed, roller bearing (213) are located the bottom in V-arrangement groove, inspection sample container arranges V-arrangement groove bottom in, be equipped with the gap of adjustable size between adjustable fender (212) lower extreme and roller bearing (213).

2. The apparatus according to claim 1, further comprising a sorting channel (25) located below the V-groove structure (21), wherein the gap between the movable baffle (212) and the roller (213) is opposite to an inlet provided at an upper portion of the sorting channel (25), and an outlet is provided at a bottom portion of the sorting channel (25).

3. The automatic scanning device for test sample containers according to claim 1, further comprising a first motor (23) for driving the roller (213) to rotate, wherein an output shaft of the first motor (23) is connected to one end of the roller (213).

4. The automatic scanning device for test sample containers as claimed in claim 3, wherein the surface of the roller (213) is provided with a pattern or stripe for increasing the friction of the roller surface.

5. The automatic test sample container scanning device of claim 1, further comprising a second motor (24) for driving the movable shutter (212) to rotate, wherein the upper end of the movable shutter (212) is fixed to an output shaft of the second motor (24).

6. The automatic test sample container scanning device of claim 5, wherein the second motor (24) is capable of driving the flapper (212) to rotate to maintain the first position or the second position, the gap between the flapper (212) and the roller (213) in the first position being smaller than the diameter of the test sample container, and the gap between the flapper (212) and the roller (213) in the second position being larger than the diameter of the test sample container.

7. The automatic scanning device for test sample containers according to claim 3, wherein the lower end of the fixed inclined plate (211) is located obliquely above the roller (213) without contact, and the gap between the fixed inclined plate (211) and the roller (213) is smaller than the diameter of the test sample container.

8. The automatic scanning device for test sample containers as claimed in claim 7, further comprising a second motor (24) for driving the movable baffle (212) to rotate, wherein the upper end of the movable baffle (212) is fixed on the output shaft of the second motor (24), and the lower end of the movable baffle (212) is positioned obliquely below the roller (213) and is not contacted with the roller; the second motor (24) can drive the movable baffle (212) to rotate and keep at a first position or a second position, the gap between the movable baffle (212) and the roller (213) at the first position is smaller than the diameter of the test sample container, and the gap between the movable baffle (212) and the roller (213) at the second position is larger than the diameter of the test sample container.

9. The automated test sample container scanning device of claim 1, wherein the scanning head of the scanner (22) is directed toward the bottom of the V-shaped groove, and the scanning area of the scanner (22) covers the bottom area of the V-shaped groove.

10. The automated test sample container scanning apparatus of any one of claims 1 to 9, further comprising a controller (40), wherein the scanner (22), the first motor (23), and the second motor (24) are electrically connected to the controller (40), respectively.

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