CN216359176U - Online sorting system for narrow-gauge blood collection tube transmission - Google Patents

Abstract

An online sorting system for narrow-gauge blood collection tube conveying comprises horizontal conveying rails, slowly descending rails, sorting devices and a feeding reversing device, wherein the sorting devices and the feeding reversing device are fixedly connected with a ceiling or a wall surface; in the letter sorting stage, the orbital export of horizontal transmission before adjacent meets with sorting device's entry, sorting device's export meets with orbital entry of horizontal transmission after adjacent, the orbital hopper that connects of slowly falling respectively, and the contained angle is 180 degrees between the orbital and the adjacent horizontal transmission after adjacent preceding horizontal transmission. The utility model has good expandability, realizes the sorting of 1 inlet and more outlets of the blood sampling tubes on an aerial production line, saves the ground space and is convenient to install.

Description

Online sorting system for narrow-gauge blood collection tube transmission

Technical Field

The utility model relates to the technical field of blood specimen conveying equipment in hospital clinical laboratory, in particular to an online sorting system for narrow-gauge blood collection tube transmission.

Background

The mode of conveying the blood sampling tubes to each inspection point is more traditional at present. Often the heparin tube needs the nurse from the window of taking a blood sample to the check out test set point and comes the hand collection, along with the sharp increase of patient's number, and will reduce the work load that the heparin tube removed the process personnel again.

To this situation, there are multiple heparin tube transmission device that appears in the market, do not possess on-line letter sorting function, and the heparin tube often sorts and has transported point by point again, and the complicacy that equipment often was done is and bulky, and hardly accomplishes the requirement that later stage clinical laboratory increases the chemical examination point.

Before a transmission device specially matched with blood collection of a clinical laboratory does not appear, a worker is required to be arranged to go to a blood collection window to collect a blood collection tube, so that not only is the manpower increased, but also the worker collection process is easily influenced on the safety of the worker under an epidemic situation environment.

In addition, the traditional conveying method cannot monitor in the transmission process, and in case of tube leaving, data backtracking query for tube finding is time-consuming, so that the scanning, recording and classifying of the blood sampling tube in the air is particularly important.

Disclosure of Invention

In order to overcome the defects of the prior art, the utility model provides the narrow-gauge blood collection tube transmission online sorting system which has good expandability and is very convenient to expand under the condition that required drop point positions are increased. Realize carrying out the letter sorting of 1 business turn over more play with the heparin tube on aerial assembly line, saved ground space, simple to operate, the data that the scanning acquireed match the inquiry time of the unexpected lost tube that significantly reduces in real time.

The technical scheme adopted by the utility model for solving the technical problems is as follows:

an online sorting system for narrow-gauge blood collection tube conveying comprises horizontal conveying rails, slowly-descending rails, sorting devices and a feeding reversing device, wherein the sorting devices and the feeding reversing device are fixedly connected with a ceiling or a wall, in a feeding stage, outlets of adjacent front horizontal conveying rails are connected with inlets of the feeding reversing device, outlets of the feeding reversing device are connected with inlets of adjacent rear horizontal conveying rails, and included angles between the adjacent front horizontal conveying rails and the adjacent rear horizontal conveying rails are preset angles; in the letter sorting stage, the orbital export of horizontal transmission before adjacent with sorting device's entry meets, sorting device's export meets with orbital entry of horizontal transmission after adjacent, the orbital hopper that connects of slowly falling respectively, and the contained angle is 180 degrees between the horizontal transmission track before adjacent and the horizontal transmission track after adjacent.

Preferably, the preset angle is 90 degrees. But not limited to 90 degrees, can be adjusted according to the field; the preset angle can be 0-180 degrees, 180 degrees are not usually selected, and if the preset angle is 180 degrees, two adjacent horizontal conveying tracks are in a parallel relation, and steering is not needed.

In the feeding stage, the adjacent front horizontal transmission track and the adjacent rear horizontal transmission track are positioned in the same height plane. Or may be located in a different elevation plane, for example, lower or higher than the adjacent front horizontal transfer track.

In the sorting stage, the adjacent front horizontal conveying track and the adjacent rear horizontal conveying track are positioned in the same height plane. It is also possible for the sorting output to fall downwards or to be conveyed upwards in different height planes, for example, in such a way that the adjacent front horizontal conveying track is higher or lower than the adjacent rear horizontal conveying track.

More preferably, in the feeding stage and the sorting stage, each horizontal conveying track is located in the same height plane. This is the preferred form of construction.

Further, material loading switching-over device includes curb plate, material loading motor, synchronizing wheel, hold-in range, lower synchronous belt splint, lower movable plate, go up the movable plate and go up the feed bin, and the material loading motor is installed in the curb plate, and on the synchronizing wheel was fixed in the material loading motor shaft, hold-in range and synchronizing wheel cooperation were connected, and lower synchronous belt splint and last synchronous belt splint are fixed in the both sides of hold-in range respectively, and lower synchronous belt splint one end is connected with the lower movable plate, goes up the hold-in range splint and is connected with the upper movable plate, a orbital export of horizontal transport with go up the feed bin and meet.

Still further, sorting device includes the scanning head and divides the dial mechanism, divide the dial mechanism, the backup pad is installed on the section bar, and on the motor mounting panel was fixed in the backup pad, sensor mounting panel and motor mounting panel were connected, and position sensor installs on the sensor mounting panel, and the letter sorting motor is installed on the motor mounting panel, and shift fork and letter sorting motor shaft are connected, have arranged the response strip above the shift fork, the pusher dog is used for stirring the heparin tube that is located the horizontal transfer track, and the letter sorting sensor is installed on the motor mounting panel.

The number of the scanning heads is three, and the scanning heads are arranged in an annular array.

A scanning head is connected with a scanning head fixing plate, a second scanning head is connected with a second scanning head fixing plate, a third scanning head is installed on the second scanning head fixing plate, and the first scanning head fixing plate and the second scanning head fixing plate are respectively fixed on a section bar frame.

Preferably, the sorting device and the feeding reversing device are mounted on the wall surface in a wall-mounted mode or mounted below the ceiling through a pull-down hanging rod. The mounting height of the wall surface is configured according to different requirements, and a roof can be selected.

The technical conception of the utility model is as follows: the starting equipment, whole piece transmission assembly line start, and the heparin tube gets into the horizontal transmission track from the lifting device, and the horizontal transmission track sends the heparin tube into material loading switching-over device, and the heparin tube conveys sorting device to the horizontal transmission track again after the switching-over, and sorting device sorts according to sweeping a yard information. The blood sampling tubes are guided to flow to the corresponding slow descending rail or the horizontal conveying rail, and then are conveyed to each inspection point by the horizontal conveying rail to slowly descend and fall the tubes.

The utility model has the following beneficial effects: the method has good expandability, and is very convenient to expand under the condition that the required drop point positions are increased. Realize carrying out the letter sorting of 1 business turn over more play with the heparin tube on aerial assembly line, saved ground space, simple to operate, the data that the scanning acquireed match the inquiry time of the unexpected lost tube that significantly reduces in real time.

Drawings

Fig. 1 is a schematic external view of the present invention.

Fig. 2 is a schematic view of a feeding reversing device of the utility model.

Fig. 3 is a schematic view of the sorting apparatus of the present invention.

Wherein, 1, a feeding reversing device; 3. a sorting device; 42. slowly descending the track; 43. slowly descending the track; 5. a blood collection tube; 21. a first horizontal transfer track; 22. a second horizontal transfer track; 23. a third horizontal transfer track; 11. a side plate; 12. a feeding motor; 13. a synchronizing wheel; 14. a synchronous belt; 15. a lower synchronous belt clamping plate; 16. an upper synchronous belt clamping plate; 17. a lower moving plate; 18. an upper movable plate; 19. feeding a bin; 30. a section bar frame; 31. a first scanning head fixing plate; 32. a second scanning head fixing plate; 33. a support plate; 34. a motor fixing plate; 35. a sensor fixing plate; 36. a position sensor; 37. sorting sensors; 38. an induction strip; 39. a shifting fork; 301. a first scanning head; 302. a second scanning head; 303. a third scanning head; 41. a receiving hopper; 51. a sorting motor.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

Referring to fig. 1-3, an on-line sorting system for narrow-gauge blood collection tube transmission comprises horizontal transmission rails, slow-descending rails, a sorting device and a feeding reversing device, wherein the sorting device and the feeding reversing device are fixedly connected with a ceiling or a roof; in the letter sorting stage, the orbital export of horizontal transmission before adjacent with sorting device's entry meets, sorting device's export meets with orbital entry of horizontal transmission after adjacent, the orbital hopper that connects of slowly falling respectively, and the contained angle is 180 degrees between the horizontal transmission track before adjacent and the horizontal transmission track after adjacent.

Preferably, the preset angle is 90 degrees. But not limited to 90 degrees, can be adjusted according to the field; the preset angle can be 0-180 degrees, 180 degrees are not usually selected, and if the preset angle is 180 degrees, two adjacent horizontal conveying tracks are in a parallel relation, and steering is not needed.

In the feeding stage, the adjacent front horizontal transmission track and the adjacent rear horizontal transmission track are positioned in the same height plane. Or may be located in a different elevation plane, for example, lower or higher than the adjacent front horizontal transfer track.

In the sorting stage, the adjacent front horizontal conveying track and the adjacent rear horizontal conveying track are positioned in the same height plane. It is also possible for the sorting output to fall downwards or to be conveyed upwards in different height planes, for example, in such a way that the adjacent front horizontal conveying track is higher or lower than the adjacent rear horizontal conveying track.

More preferably, in the feeding stage and the sorting stage, each horizontal conveying track is located in the same height plane. This is the preferred form of construction.

The sorting device 3 and the feeding reversing device 1 are arranged on the wall or below a ceiling or a roof through a pull-down suspension rod.

In this embodiment, in the feeding stage, the adjacent front horizontal transfer track is a first horizontal transfer track 21, and the adjacent rear horizontal transfer track is a second horizontal transfer track 22; in the sorting stage, the adjacent front horizontal transmission track is a second horizontal transmission track 22, and the adjacent rear horizontal transmission track is a third horizontal transmission track 23; the feeding stage and the sorting stage belong to functional partitions, and can be expanded according to actual needs, for example, the sorting stage can be in a plurality of serial forms, and the like.

Referring to fig. 1, the system comprises a plurality of horizontal conveying rails (21, 22 and 23 in the figure), a feeding reversing device 1, a sorting device 3 and a slow descending device 4. Each module is independently mounted below the ceiling or roof.

The working process is as follows: heparin tube 5 is carried to material loading switching-over device 1 by horizontal transmission track 21, gets into horizontal transmission track 22 through the material loading, then, gets into sorting device 3, and sorting device decides according to bar code information whether to dial heparin tube 5 into slowly falling device 43 or get into horizontal transmission track 23, and the heparin tube that gets into horizontal transmission track 23 further transmits to slowly falling device 42 again. The slow descending device can be expanded according to requirements.

As shown in fig. 2, the feeding motor 12 is installed on the side plate 11, the synchronizing wheel 13 is fixed on the shaft of the motor 12, the synchronizing belt 14 is connected with the synchronizing wheel 13 in a matching manner, the lower synchronizing belt clamping plate 15 and the upper synchronizing belt clamping plate 16 are respectively fixed on two sides of the synchronizing belt, one end of the lower synchronizing belt clamping plate 15 is connected with the lower moving plate 17, and the upper synchronizing belt clamping plate 16 is connected with the upper moving plate 18.

The material loading reversing process comprises the following steps: the blood sampling tube 5 is conveyed to the upper bin 19 of the feeding and reversing device 1 through the horizontal conveying rail 21, the upper movable plate 18 and the lower movable plate 17 move oppositely to convey the blood sampling tube 5 to the horizontal conveying rail 21, and reversing of the blood sampling tube 5 is completed.

Referring to fig. 3, the first scan head 301 is connected to the first scan head fixing plate 31, the second scan head 302 is connected to the second scan head fixing plate 32, the third scan head 303 is mounted on the second scan head fixing plate 32, and the first scan head fixing plate 31 and the second scan head fixing plate 32 are respectively fixed to the profile frame 30. The supporting plate 33 is installed on the section bar 30, the motor mounting plate 34 is fixed on the supporting plate 33, the sensor mounting plate 35 is connected with the motor mounting plate 34, the position sensor 36 is installed on the sensor mounting plate 35, the motor 51 is installed on the motor mounting plate 34, the shifting fork 39 is connected with the motor 51 through a shaft, the induction strip 38 is arranged on the shifting fork 39, and the sorting sensor 37 is installed on the motor mounting plate 34.

The sorting process comprises the following steps: after the blood collection tube 5 enters the sorting device, the blood collection tube passes through an annular region formed by a first scanning head 301, a second scanning head 302 and a third scanning head 303, so that the whole circumference is arranged to scan a bar code by 100%, after the bar code is scanned, the blood collection tube 5 passes below a shifting fork 39 to trigger a position sensor 36, and at the moment, the system can determine whether the blood collection tube 5 is shifted into a bin 41 of the descent control device 43 or does not perform a shifting action according to the bar code information to enable the blood collection tube 5 to enter the next point position. After the sorting is completed, the fork 39 continues to rotate until the sensor strip 38 triggers the sorting sensor 37, so that the sorting device is ready for the next sorting.

In conclusion, the utility model can improve the efficiency of medical examination of the specimen, reduce manual links, save the ground use space and ensure the stability, reliability and traceability of the transmission of the blood sampling tube of the complex transmission system.

The embodiments described in this specification are merely examples of implementations of the inventive concepts, which are intended for illustrative purposes only. The scope of the present invention should not be construed as being limited to the particular forms set forth in the examples, but rather as being defined by the claims and the equivalents thereof which can occur to those skilled in the art upon consideration of the present inventive concept.

Claims (10)

1. An online sorting system for narrow-gauge blood collection tube conveying is characterized by comprising a horizontal conveying rail, a slow descending rail, a sorting device and a feeding reversing device, wherein the sorting device and the feeding reversing device are fixedly connected with a ceiling or a wall surface; in the letter sorting stage, the orbital export of horizontal transmission before adjacent with sorting device's entry meets, sorting device's export meets with orbital entry of horizontal transmission after adjacent, the orbital hopper that connects of slowly falling respectively, and the contained angle is 180 degrees between the horizontal transmission track before adjacent and the horizontal transmission track after adjacent.

2. The narrow gauge blood collection tube transport in-line sortation system as recited in claim 1, wherein the predetermined angle is 90 degrees.

3. The narrow-gauge type blood collection tube conveying online sorting system according to claim 1 or 2, wherein in the loading stage, the adjacent front horizontal conveying rail and the adjacent rear horizontal conveying rail are located in the same height plane.

4. The narrow-gauge type blood collection tube conveying online sorting system according to claim 1 or 2, wherein in the sorting stage, the adjacent front horizontal conveying rail and the adjacent rear horizontal conveying rail are located in the same height plane.

5. The narrow-gauge type blood collection tube conveying online sorting system according to claim 1 or 2, wherein in the loading stage and the sorting stage, each horizontal conveying rail is located in the same height plane.

6. The narrow gauge type blood collection tube conveying online sorting system according to claim 1 or 2, wherein the feeding reversing device comprises a side plate, a feeding motor, a synchronizing wheel, a synchronizing belt, a lower synchronizing belt clamping plate, an upper synchronizing belt clamping plate, a lower movable plate, an upper movable plate and an upper storage bin, the feeding motor is mounted on the side plate, the synchronizing wheel is fixed on a shaft of the feeding motor, the synchronizing belt and the synchronizing wheel are connected in a matched mode, the lower synchronizing belt clamping plate and the upper synchronizing belt clamping plate are respectively fixed on two sides of the synchronizing belt, one end of the lower synchronizing belt clamping plate is connected with the lower movable plate, the upper synchronizing belt clamping plate is connected with the upper movable plate, and an outlet of a first horizontal conveying track is connected with the upper storage bin.

7. The narrow gauge type blood collection tube conveying online sorting system according to claim 1 or 2, wherein the sorting device comprises a scanning head and a sorting mechanism, the sorting mechanism is provided with a support plate mounted on the section bar, a motor mounting plate fixed on the support plate is connected with the sensor mounting plate, a position sensor is mounted on the sensor mounting plate, a sorting motor is mounted on the motor mounting plate, a shifting fork is connected with a sorting motor shaft, a sensing strip is arranged on the shifting fork, the shifting fork is used for shifting the blood collection tubes on the horizontal conveying track, and the sorting sensor is mounted on the motor mounting plate.

8. The narrow gauge blood collection tube transfer in-line sorting system of claim 7, wherein the number of the scanning heads is three, arranged in a circular array.

9. The narrow gauge type blood collection tube conveying online sorting system of claim 8, wherein the first scanning head is connected to the first scanning head fixing plate, the second scanning head is connected to the second scanning head fixing plate, the third scanning head is mounted on the second scanning head fixing plate, and the first scanning head fixing plate and the second scanning head fixing plate are respectively fixed to the profile rack.

10. The narrow-gauge type blood collection tube conveying online sorting system according to claim 1 or 2, wherein the sorting device and the feeding reversing device are wall-mounted on a wall surface or mounted below a ceiling through a pull-down hanging rod.

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