CN214987183U - Discharging mechanism of sample container - Google Patents

Abstract

The utility model provides a discharge mechanism of sample container belongs to medical instrument technical field, include: the storage box is internally provided with a storage space for storing the sample container, a partition plate is arranged in the storage space to divide the storage space into a first storage cavity and a second storage cavity, and a feeding hole and a discharging hole which are communicated with the first storage cavity and the second storage cavity are formed in the storage box; and the discharging wheel is arranged at the discharging port, and the sample containers are discharged one by one through the rotation of the discharging wheel. The utility model provides a pair of discharging mechanism of sample container cuts apart into two storage chambers that set up side by side with the storage space in the storage tank through the baffle, realizes depositing of two kinds of different sample containers to improve the nimble utilization to storage tank inner space, and then reduce discharging mechanism's manufacturing cost.

Description

Discharging mechanism of sample container

Technical Field

The utility model belongs to the technical field of medical instrument, a discharge mechanism, especially a discharge mechanism of sample container are related to.

Background

The current hospital 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 receiving the sample, the patient's visit card is required to be taken to print the bar code and be attached to the container, and the receipt is printed to the patient at the same time, because the sample may have biohazard, there is a possibility of hospital infection and patient complaints frequently.

Chinese patent (CN20797303U) discloses a discharging mechanism of a body fluid test tube, comprising: the base plate, one side swing joint has a bin that is used for depositing the body fluid test tube, and the opposite side of base plate can be dismantled and is connected with one and divide the material subassembly, and wherein, bin and branch are provided with the unloading passageway of a body fluid test tube between the material subassembly.

However, the above-mentioned discharge mechanism can store only a single sample container in the storage box, and if two kinds of sample containers are required, two storage boxes are required, which results in an increase in the cost of the discharge mechanism.

Disclosure of Invention

The utility model aims at solving the problems in the prior art, and provides a discharging mechanism capable of realizing discharging of sample containers with different properties.

The purpose of the utility model can be realized by the following technical proposal: a sample container outfeed mechanism comprising:

the storage box is internally provided with a storage space for storing the sample container, a partition plate is arranged in the storage space to divide the storage space into a first storage cavity and a second storage cavity, and a feeding hole and a discharging hole which are communicated with the first storage cavity and the second storage cavity are formed in the storage box;

and the discharging wheel is arranged at the discharging port, and the sample containers are discharged one by one through the rotation of the discharging wheel.

In foretell discharge mechanism of sample container, the quantity of feed inlet is two, is first feed inlet and second feed inlet respectively, and forms between first feed inlet and the discharge gate first storage chamber forms between second feed inlet and the discharge gate the chamber is stored to the second, and wherein, first feed inlet and second feed inlet are located the both sides of storage tank.

In the above discharging mechanism for the sample container, the number of the two discharging ports is respectively a first discharging port and a second discharging port, the first storage cavity is formed between the feeding port and the first discharging port, and the second storage cavity is formed between the feeding port and the second discharging port.

In the above discharging mechanism for a sample container, the first discharging port and the second discharging port are respectively connected with a discharging wheel, wherein each discharging wheel is provided with a discharging groove.

In the above-mentioned discharge mechanism for sample containers, the discharge chute is recessed toward the center along the surface of the discharge wheel.

In foretell discharge mechanism of sample container, the quantity of feed inlet is two, is first feed inlet and second feed inlet respectively, and the quantity of discharge gate is two, is first discharge gate and second discharge gate respectively, wherein, forms between first feed inlet and the first discharge gate first storage chamber forms the second between second feed inlet and the second discharge gate and stores the chamber, and first feed inlet and second feed inlet are located the both sides of storage tank.

In foretell discharge mechanism of sample container, the baffle is including dismantling the first baffle of connecting on the storage tank, and with the rotatory complex second baffle of first baffle, wherein, has the door plant at feed inlet department swing joint, and forms linkage structure through the connecting rod between door plant and the second baffle.

In the above discharging mechanism for sample containers, the door plate is rotatably connected to the feeding port, wherein a driving member for driving the door plate to open and close automatically is mounted on the storage box.

In the above-mentioned discharge mechanism of a sample container, the shrouding is respectively installed to the both sides at the door plant, and wherein, the shrouding is located storage space, perhaps inlays in the curb plate of storage tank.

In the discharging mechanism of the sample container, a first guide inclined plate is arranged on the wall of the storage cavity close to one end of the feeding hole, and a second guide inclined plate is arranged on the first baffle close to one end of the discharging hole.

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

(1) the utility model provides a pair of discharging mechanism of sample container cuts apart into two storage chambers that set up side by side with the storage space in the storage tank through the baffle, realizes depositing of two kinds of different sample containers to improve the nimble utilization to storage tank inner space, and then reduce discharging mechanism's manufacturing cost.

(2) When the first storage cavity and the second storage cavity share one feed inlet, the feeding of the first storage cavity and the second storage cavity is realized through the opening size of the door plate and the linkage between the door plate and the second baffle plate, and the feeding device is flexible and reliable in operation. In addition, the second baffle is around first baffle in rotatory process, and first storage chamber and second storage chamber are controlled strictly, avoid the sample container to take place alternately, improve the accuracy nature and the reliability of the ejection of compact.

(3) The door plate is driven to rotate through the cylinder, so that the door plate is automatically opened and closed, the second storage cavity is prevented from being automatically rotated due to the fact that the quantity of the sample containers is increased, and the storage reliability of the sample containers is guaranteed.

(4) The shrouding is installed through the both sides at the door plant, when avoiding toward storing intracavity feed supplement, sample container falls from the department of opening and shutting of door plant to improve the reliability of sample container feed supplement.

(5) The discharge gate can be blocked through the discharging wheel to combine the discharge chute on the discharging wheel, realize the ejection of compact one by one of sample container, improve the reliability of the ejection of compact, in addition, the sample container is embedded in the discharge chute when the ejection of compact, guarantees that the discharging wheel is rotatory in-process, extrudees the sample container, guarantees the reliability of the ejection of compact of sample container.

Drawings

Fig. 1 is a schematic structural diagram of a discharging mechanism of a sample container according to the present invention.

Fig. 2 is a schematic view of a partial structure of a discharging mechanism of a sample container according to the present invention.

Fig. 3 is a schematic view of a partial structure of a discharging mechanism of a sample container according to the present invention.

In the figure, 100, a storage box; 110. a partition plate; 111. a first baffle plate; 112. a second baffle; 113. a second inclined guide plate; 120. a first storage chamber; 130. a second storage chamber; 140. a feed inlet; 150. a first discharge port; 160. a second discharge port; 170. a door panel; 171. closing the plate; 180. a connecting rod; 190. a first inclined guide plate; 190A, side plates; 200. a drive member; 300. a discharging wheel; 310. a discharge chute; 400. a first rotating electrical machine; 500. a second rotating electrical machine.

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.

As shown in fig. 1 to fig. 3, the utility model provides a discharge mechanism of sample container, including: the storage box 100 is provided with a storage space for storing sample containers therein, and the storage space is divided into a first storage chamber 120 and a second storage chamber 130 by a partition plate 110, wherein the storage box 100 is provided with a feed inlet 140, a first discharge outlet 150 and a second discharge outlet 160, two ends of the first storage chamber 120 are respectively communicated with the feed inlet 140 and the first discharge outlet 150, and two ends of the second storage chamber 130 are respectively communicated with the feed inlet 140 and the second discharge outlet 160.

The utility model provides a pair of discharge mechanism of sample container cuts apart into two storage chambers that set up side by side with storage space in the storage tank 100 through baffle 110, realizes depositing of two kinds of different sample containers to improve the nimble utilization to storage tank 100 inner space, and then reduce discharge mechanism's manufacturing cost.

Further preferably, when the number of the feeding holes 140 is two, the feeding holes are respectively a first feeding hole 140 and a second feeding hole 140, wherein two ends of the first storage cavity 120 are respectively communicated with the first feeding hole 140 and the first discharging hole 150, and two ends of the second storage cavity 130 are respectively communicated with the second feeding hole 140 and the second discharging hole 160.

Preferably, as shown in fig. 1 to 3, the partition 110 includes a first blocking plate 111 detachably connected to the storage box 100, and a second blocking plate 112 rotatably engaged with the first blocking plate 111, wherein a door panel 170 is movably connected to the feeding hole 140, and a linkage structure is formed between the door panel 170 and the second blocking plate 112 through a connecting rod 180.

In this embodiment, the first baffle 111 and the second baffle 112 are connected by a hinge to form a rotating structure between the first baffle 111 and the second baffle 112, the second baffle 112 and the door panel 170 are connected by a connecting rod 180 to form linkage, the opening of the door panel 170 pulls the second baffle 112 to rotate, when the door panel 170 is in a half-open state, the opening of the first storage cavity 120 near one end of the feed port 140 is reduced, the opening of the second storage cavity 130 near one end of the feed port 140 is enlarged, and at this time, the second storage cavity 130 can be supplemented with corresponding sample containers; when the door 170 is in the fully opened state, the opening degree of the first storage chamber 120 near the end of the feeding port 140 is maximized, and the end of the second storage chamber 130 near the feeding port 140 is covered by the second shutter 112 and is closed, so that the corresponding sample container can be filled into the first storage chamber 120.

In this embodiment, when the first storage chamber 120 and the second storage chamber 130 share one feed inlet 140, the feeding of the first storage chamber 120 and the second storage chamber 130 is realized through the opening of the door panel 170 and the linkage between the door panel 170 and the second baffle 112, and the operation is flexible and reliable. In addition, the second baffle plate 112 strictly controls the first storage cavity 120 and the second storage cavity 130 during the rotation process around the first baffle plate 111, so that the sample containers are prevented from being crossed, and the accuracy and the reliability of discharging are improved.

Further preferably, a first inclined guide plate 190 is arranged on the wall of the storage cavity close to one end of the feed inlet 140, and a second inclined guide plate 113 is arranged on the first baffle 111 close to one end of the discharge outlet, so that the sample container can be smoothly discharged from the discharge outlet.

Preferably, as shown in fig. 1 to 3, the door panel 170 is rotatably connected to the throat 140, wherein a driving member 200 (e.g., an air cylinder) is mounted on the storage box 100, and the door panel 170 is driven to rotate by the driving member 200 to change the opening degree of the throat 140.

In this embodiment, the door plate 170 is driven to rotate by the cylinder, so that the door plate 170 is automatically opened and closed, the door plate 170 is prevented from being pushed to rotate automatically due to the increase of the number of the sample containers in the second storage cavity 130, and the storage reliability of the sample containers is ensured.

It is further preferable that the driving member 200 is two in number and is respectively located at both sides of the door panel 170, wherein one end of the driving member 200 is mounted on the storage box 100, and the other end of the driving member 200 is connected to the door panel 170. By providing two driving members 200, the reliability of the door panel 170 in opening or closing is ensured.

Preferably, as shown in fig. 1 to 3, a sealing plate 171 is installed at each side of the door panel 170, wherein the sealing plate 171 is located in the storage space or embedded in the side panels 190A at each side of the storage case 100.

In this embodiment, the sealing plates 171 are installed on two sides of the door panel 170, so that the sample container is prevented from falling from the opening and closing position of the door panel 170 when the material is supplemented into the storage cavity, and the reliability of material supplement of the sample container is improved.

Preferably, as shown in fig. 1 to 3, a rotatable discharging wheel 300 is mounted at each of the first discharging hole 150 and the second discharging hole 160, wherein a discharging groove 310 is provided on a surface of the discharging wheel 300.

In this embodiment, can the shutoff discharge gate through ejection of compact wheel 300 to combine the blown down tank 310 on the ejection of compact wheel 300, realize the ejection of compact one by one of sample container, improve the reliability of the ejection of compact, in addition, sample container is embedded in blown down tank 310 when the ejection of compact, guarantees ejection of compact wheel 300 at rotatory in-process, extrudees sample container, guarantees the reliability of the ejection of compact of sample container.

Preferably, as shown in fig. 1 to 3, the discharging wheel 300 mounted to the first discharging hole 150 is driven by a first rotating motor 400, and the discharging wheel 300 mounted to the second discharging hole 160 is driven by a second rotating motor 500.

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 container outfeed mechanism, comprising:

the storage box is internally provided with a storage space for storing the sample container, a partition plate is arranged in the storage space to divide the storage space into a first storage cavity and a second storage cavity, and a feeding hole and a discharging hole which are communicated with the first storage cavity and the second storage cavity are formed in the storage box;

and the discharging wheel is arranged at the discharging port, and the sample containers are discharged one by one through the rotation of the discharging wheel.

2. The discharging mechanism of sample container as claimed in claim 1, wherein the number of the feeding ports is two, and the feeding ports are respectively a first feeding port and a second feeding port, and the first storage chamber is formed between the first feeding port and the discharging port, and the second storage chamber is formed between the second feeding port and the discharging port, wherein the first feeding port and the second feeding port are located at two sides of the storage box.

3. The discharging mechanism of sample container as claimed in claim 2, wherein the number of the discharging ports is two, and the discharging ports are respectively a first discharging port and a second discharging port, and the first storage cavity is formed between the feeding port and the first discharging port, and the second storage cavity is formed between the feeding port and the second discharging port.

4. The discharging mechanism of sample container as claimed in claim 3, wherein a discharging wheel is connected to each of the first discharging port and the second discharging port, and a discharging groove is provided on each discharging wheel.

5. The outfeed mechanism of a sample container according to claim 4, wherein the outfeed chute is centrally recessed along the outfeed wheel surface.

6. The discharging mechanism of sample container as claimed in any one of claims 2 to 4, wherein the number of the feeding ports is two, and the feeding ports are respectively a first feeding port and a second feeding port, and the number of the discharging ports is two, and the feeding ports are respectively a first discharging port and a second discharging port, wherein the first storage cavity is formed between the first feeding port and the first discharging port, the second storage cavity is formed between the second feeding port and the second discharging port, and the first feeding port and the second feeding port are located at two sides of the storage box.

7. The discharging mechanism of sample container as claimed in any one of claims 2 to 4, wherein the partition comprises a first baffle detachably connected to the storage box and a second baffle rotatably engaged with the first baffle, wherein a door panel is movably connected to the feeding port, and a linkage structure is formed between the door panel and the second baffle through a connecting rod.

8. The discharging mechanism of sample container as claimed in claim 7, wherein the door panel is rotatably connected to the feeding hole, and wherein a driving member for driving the door panel to open and close automatically is installed on the storage box.

9. The discharge mechanism of claim 7, wherein sealing plates are mounted on both sides of the door, wherein the sealing plates are located in the storage space or embedded in the side plates of the storage box.

10. The discharging mechanism of sample container as claimed in claim 1, wherein the wall of the storage chamber near the inlet is provided with a first inclined guiding plate, and the first baffle near the outlet is provided with a second inclined guiding plate.

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