CN110498249B

CN110498249B - Arc rod type shifting-out and separating device of rotary feeding box

Info

Publication number: CN110498249B
Application number: CN201910623552.0A
Authority: CN
Inventors: 王兆兵; 谢盼
Original assignee: Suzhou Yiheng Biotechnology Co ltd
Current assignee: Suzhou Yiheng Biotechnology Co ltd
Priority date: 2019-07-16
Filing date: 2019-07-16
Publication date: 2020-12-01
Anticipated expiration: 2039-07-16
Also published as: CN110498249A

Abstract

The invention belongs to the field of medical instruments, and particularly relates to an arc rod type moving-out and separating device of a rotary feeding box, which comprises: the support column, the feed case, the transmission belt, the support column is cylindrical, encircle its periphery and evenly arrange a plurality of semicircular groove that link up bottom surface from top to bottom, be equipped with the feed case between the adjacent two semicircular groove, the feed case is equipped with a plurality ofly, be first feed case, second feed case, third feed case, fourth feed case, fifth feed case, sixth feed case respectively, the pivot left side, the support column below is equipped with the transmission belt, the transmission belt sets up between two belt backup pads. The invention aims to provide a spring sheet type blood collection tube sorting device, which reduces manual operation, certain labor cost and operation time, and effectively saves certain floor space cost and early manufacturing cost.

Description

Arc rod type shifting-out and separating device of rotary feeding box

Technical Field

The invention belongs to the field of medical instruments, and particularly relates to an arc rod type moving-out and separating device of a rotary feeding box.

Background

The medical examination items include clinical chemistry, clinical microbiology, clinical immunology, hematology, humoral science, transfusion science, etc., and each examination item has different requirements on blood components and thus on the function of the vacuum tube. In practical application, some people only use a vacuum blood collection tube to collect blood in order to quickly finish blood collection, so that unreasonable blood sampling is caused; or some detection items can be completed only by one vacuum tube, and actually, a plurality of vacuum tubes are adopted, so that waste of blood and the vacuum tubes is caused.

Because the project of blood sampling chemical examination is different, and corresponding matching has different types of heparin tube, places in one or two bins by a plurality of types of heparin tube more, when meetting the patient more, makes mistakes in busy easily, causes heparin tube and chemical examination project to mismatch, causes the wasting of resources.

Because the project that relates to the blood sampling is more, need multiple type heparin tube, it is bigger that current heparin tube storage and shift out equipment area is bigger, and the process is also more complicated, has leaded to manufacturing cost's increase, and at the during operation, the manual work still needs to participate in moreover, and artificial work load and the operating time of unable effectual reduction need wait for a moment the heparin tube and just can follow the bin and shift out when needing certain type heparin tube, still optimizes inadequately in the time of taking out.

Disclosure of Invention

Therefore, the present invention has been made in view of the above problems, and it is an object of the present invention to provide an arc rod type removing and separating device for a rotary feed tank, which reduces the number of manual operations, reduces certain labor costs and operation time, and effectively saves certain floor space costs and previous manufacturing costs.

To achieve the above object, an arc-bar type removing and separating device of a rotary feed tank includes: the device comprises a support column, a feeding box and a conveying belt;

the supporting columns are cylindrical, a plurality of semicircular grooves penetrating the upper bottom surface and the lower bottom surface are uniformly distributed around the outer circumferential surfaces of the supporting columns, and a feeding box is arranged between every two adjacent semicircular grooves;

the supporting column is connected with a servo motor through a rotating shaft arranged on the axis of the supporting column;

the feeding boxes are provided with a plurality of first feeding boxes, a plurality of second feeding boxes, a plurality of third feeding boxes, a plurality of fourth feeding boxes, a plurality of fifth feeding boxes and a plurality of sixth feeding boxes, and the six groups of feeding boxes are respectively and correspondingly arranged between the two adjacent semicircular grooves;

a conveying belt is arranged on the left side of the rotating shaft and below the supporting column, the conveying belt is arranged between the two belt supporting plates and driven by a motor, and a tray is arranged at one end of the conveying belt, which is far away from the supporting column;

a fixed plate is arranged between the two belt supporting plates, an air cylinder is fixedly arranged in the middle of the top surface of the fixed plate, the air cylinder is connected with the middle of the bottom surface of the arc-shaped rod through a telescopic rod, the length of the arc-shaped rod is smaller than that of the groove, and the radian of the arc-shaped rod is consistent with the rotating radian of the supporting column;

the bottom of the feeding box is provided with an opening which runs through two opposite side surfaces of the feeding box, the opening is adjacent to the bottom surface, and the opening is provided with an arc-shaped groove with the radian consistent with that of the arc-shaped rod at the bottom along the rotating direction of the feeding box.

In one embodiment, the length of the arc-shaped rod is smaller than the width of the semicircular groove.

In one embodiment, the ejection end of the curved rod is provided with a flexible pad.

In one embodiment, the diameter of the curved rod is smaller than the rectangular opening in the bottom of the feed tank.

In one embodiment, the width of the telescoping rod is less than the width of the arcuate slot.

Advantageous effects

1. According to the invention, different types of blood collection tube feeding boxes are placed on the same supporting plate, so that certain floor space cost and early manufacturing cost are effectively saved.

2. The invention has simpler working procedures, basically does not need manual participation during working, and greatly reduces the labor cost and the manual working time as long as the key is operated and the blood sampling tube is taken out, and also reduces certain error rate.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is a side detail view of the present invention.

FIG. 3 is a top view of the present invention.

Figure 4 is a detail view of the feed tank of the present invention.

Fig. 5 is a detailed view of the position of the arc rod of the present invention.

Fig. 6 is a detail view of the novel operation of the present invention.

Detailed Description

The present invention will be further described with reference to the following specific embodiments and the accompanying drawings, wherein the following description sets forth more details for the purpose of providing a thorough understanding of the present invention, but it is apparent that the present invention can be embodied in many other forms other than those described herein, and it will be readily apparent to those skilled in the art that the present invention may be embodied in many different forms without departing from the spirit and scope of the invention.

As shown in fig. 1, the present invention provides an arc rod type removing and separating device for a rotary feed tank, comprising: the device comprises a support column 1, a feeding box 2 and a conveying belt 3;

as shown in fig. 1, the supporting column 1 is cylindrical, a plurality of semicircular grooves 11 penetrating through the upper and lower bottom surfaces are uniformly distributed around the outer circumferential surface of the supporting column, and a feeding box 2 is arranged between two adjacent semicircular grooves 11;

as shown in fig. 2, the support column 1 is connected with a servo motor 13 through a rotating shaft 12 arranged on the axis thereof;

as shown in fig. 1, the plurality of feeding boxes 2 are respectively a first feeding box 21, a second feeding box 22, a third feeding box 23, a fourth feeding box 24, a fifth feeding box 25 and a sixth feeding box 26, and six groups of feeding boxes 2 are respectively and correspondingly arranged between the two adjacent semicircular grooves 11;

as shown in fig. 1, a conveying belt 3 is arranged on the left side of the rotating shaft 12 below the supporting column 1, the conveying belt 3 is arranged between two belt supporting plates 31, the conveying belt 3 is driven by a motor 32, and a tray 33 is arranged at one end of the conveying belt 3 far away from the supporting column 1;

as shown in fig. 5, a fixing plate 34 is arranged between the two belt supporting plates 31, a cylinder 35 is fixedly arranged in the middle of the top surface of the fixing plate 34, the cylinder 35 is connected with the middle of the bottom surface of an arc rod 36 through a telescopic rod 351, the length of the arc rod 36 is smaller than that of the groove 11, and the radian of the arc rod 36 is consistent with the rotating radian of the supporting column 1;

as shown in fig. 4, the bottom of the feeding box 2 is provided with an opening 210 penetrating through two opposite side surfaces of the feeding box, the opening 210 is adjacent to the bottom surface, and the opening 210 is provided with an arc-shaped groove 211 with the radian consistent with that of the arc-shaped rod 36 at the bottom along the rotating direction of the feeding box 2.

Preferably, as an implementation mode, the length of the arc-shaped rod 36 is smaller than the width of the semicircular groove 11, so that when the arc-shaped rod 36 is lifted, the adjacent feed box 2 can prevent the adjacent feed box from blocking the arc-shaped rod.

Preferably, as an implementable mode, the ejecting end of the arc-shaped rod 36 is provided with a flexible pad to prevent the arc-shaped rod 36 from damaging the blood collection tube when contacting the blood collection tube.

Preferably, as an embodiment, the diameter of the arc-shaped rod 16 is smaller than the rectangular opening 210 at the bottom of the feed tank 2.

Preferably, as an embodiment, the width of the telescopic bar 351 is smaller than the width of the arc-shaped slot 211.

The above two embodiments aim to make the feeding box 2 push out the blood collection tube by the arc-shaped rod 36 more smoothly during the movement.

The working principle of the invention is as follows:

place different types of heparin tubes in the same feed case of a plurality of kinds, in operation, servo motor 13 drives pivot 12 and support column 1 clockwise rotation, after receiving artifical instruction of giving, need first feed case 21, at this moment, it is in same perpendicular with the belt of below to rotate first feed case 21, when being about to arrive, cylinder 35 starts work, drive telescopic link 351 with arc 36 jacking to with first feed case 21 bottom rectangle opening 210 same height, release the heparin tube of bottom to the transmission belt 3 of below by arc 36 when first feed case 21 is rotatory, after releasing, cylinder 35 stop work, make arc 36 reset, motor 32 starts, drive transmission belt 3 work and carry the heparin tube on the tray 33 of its front end, the work of single separation of heparin tube has been accomplished.

Claims

1. An arcuate rod-out separator arrangement for a rotary feed tank, comprising: the device comprises a support column (1), a feeding box (2) and a conveying belt (3);

the method is characterized in that: the supporting column (1) is cylindrical, a plurality of semicircular grooves (11) penetrating through the upper bottom surface and the lower bottom surface are uniformly distributed around the outer circumferential surface of the supporting column, and a feeding box (2) is arranged between every two adjacent semicircular grooves (11);

the supporting column (1) is connected with a servo motor (13) through a rotating shaft (12) arranged on the axis of the supporting column;

the feeding boxes (2) are provided with a plurality of first feeding boxes (21), a plurality of second feeding boxes (22), a plurality of third feeding boxes (23), a plurality of fourth feeding boxes (24), a plurality of fifth feeding boxes (25) and a plurality of sixth feeding boxes (26), and the six groups of feeding boxes (2) are correspondingly arranged between the two adjacent semicircular grooves (11) respectively;

a conveying belt (3) is arranged on the left side of the rotating shaft (12) below the supporting column (1), the conveying belt (3) is arranged between the two belt supporting plates (31), the conveying belt (3) is driven by a motor (32), and a tray (33) is arranged at one end, far away from the supporting column (1), of the conveying belt (3);

a fixing plate (34) is arranged between the two belt supporting plates (31), a cylinder (35) is fixedly arranged in the middle of the top surface of the fixing plate (34), the cylinder (35) is connected with the middle of the bottom surface of an arc-shaped rod (36) through a telescopic rod (351), the length of the arc-shaped rod (36) is smaller than that of the groove (11), and the radian of the arc-shaped rod (36) is consistent with the rotating radian of the supporting column (1);

the bottom of the feed box (2) is provided with an opening (210) penetrating through two opposite side surfaces of the feed box, the opening (210) is adjacent to the bottom surface, and the bottom of the opening (210) along the rotating direction of the feed box (2) is provided with an arc-shaped groove (211) with the radian consistent with that of the arc-shaped rod (36);

when in work, the servo motor (13) drives the rotating shaft (12) and the supporting column (1) to rotate clockwise, after receiving the manual instruction, the first feeding box (21) is needed, and the first feeding box (21) is rotated to be in the same vertical plane with the belt below, when the feed tank is about to arrive, the cylinder (35) starts to work to drive the telescopic rod (351) to lift the arc-shaped rod (36) to the same height with the rectangular opening (210) at the bottom of the first feed tank (21), when the first feeding box (21) rotates, the blood sampling tube at the bottom is pushed out to a lower conveying belt (3) by an arc-shaped rod (36), after the blood sampling tube is pushed out, the air cylinder (35) stops working, the arc-shaped rod (36) is reset, the motor (32) is started, the transmission belt (3) is driven to work, the blood sampling tube is conveyed to the tray (33) at the front end of the transmission belt, and the single separation work of the blood sampling tube is completed.

2. A rotary feed tank curved rod type take-off and separation device as claimed in claim 1, wherein: the length of the arc-shaped rod (36) is smaller than the width of the semicircular groove (11).

3. A rotary feed tank curved rod type take-off and separation device as claimed in claim 1, wherein: the ejecting end of the arc-shaped rod (36) is provided with a flexible pad.

4. A rotary feed tank curved rod type take-off and separation device as claimed in claim 1, wherein: the diameter of the arc-shaped rod (16) is smaller than the rectangular opening (210) at the bottom of the feeding box (2).

5. A rotary feed tank curved rod type take-off and separation device as claimed in claim 1, wherein: the width of the telescopic rod (351) is smaller than that of the arc-shaped groove (211).