CN220207633U - A throwing cup structure and in vitro diagnosis sample analysis appearance for reaction cup - Google Patents

Abstract

The utility model relates to a cup throwing structure for a reaction cup, which comprises a cup throwing piece, wherein a cup throwing channel for the reaction cup to pass through is arranged on the cup throwing piece; the cup throwing piece is provided with a cup inlet for the reaction cup to enter, the cup inlet is communicated with the cup throwing channel, and the cup inlet is provided with a first guide block; the cup throwing piece is also provided with a cup throwing opening for discharging the cup, the cup throwing opening is communicated with the cup throwing channel, and the cup throwing piece is provided with a second guide block for guiding the reaction cup to be thrown away. According to the utility model, the first guide block is arranged on the cup inlet, and is used for limiting and guiding the reaction cup, so that the reaction cup falls down in the cup throwing piece and then is thrown away from the cup throwing piece along with the second guide block under the guiding action of the second guide block, and the cup throwing device is simple and quick in structure, and avoids the phenomena of cup clamping and cup blocking.

Description

A throwing cup structure and in vitro diagnosis sample analysis appearance for reaction cup

Technical Field

The utility model belongs to the technical field of in-vitro diagnosis sample analyzers, and particularly relates to a cup throwing structure for a reaction cup and an in-vitro diagnosis sample analyzer.

Background

Under the action of a reagent, a sample reacts in a reaction cup, and then the sample is analyzed by an in-vitro diagnosis sample analyzer, wherein two types of reaction cups are usually used, one is a recycled reaction cup, and the other is not recycled; the reaction cup is not recycled, and after the reaction cup is used, the reaction cup needs to be discarded, and the cup is discarded through a cup-throwing structure.

The existing cup throwing structure for the reaction cup is generally complex in structure, the cup clamping or blocking and the like are easy to occur, and when the cup clamping or blocking and the like occur, the cup throwing structure is inconvenient to clean manually, and the cup throwing efficiency is affected.

Disclosure of Invention

The utility model aims to provide a cup throwing structure for a reaction cup and an in-vitro diagnosis sample analyzer, so as to solve the problem that the existing cup throwing structure for the reaction cup is easy to cause conditions such as cup clamping or cup blocking.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the cup throwing structure for the reaction cup comprises a cup throwing piece, wherein a cup throwing channel for the reaction cup to pass through is arranged on the cup throwing piece;

the cup throwing piece is provided with a cup inlet for the reaction cup to enter, the cup inlet is communicated with the cup throwing channel, and the cup inlet is provided with a first guide block;

the cup throwing piece is also provided with a cup throwing opening for discharging the cup, the cup throwing opening is communicated with the cup throwing channel, and the cup throwing piece is provided with a second guide block for guiding the reaction cup to be thrown away.

Optionally, the reaction cup comprises a guide piece for guiding the reaction cup into the cup throwing piece, and the outlet end of the guide piece is matched with the cup inlet.

Optionally, the guide includes two sets of guide boards, two sets of be equipped with the connecting block that is not less than three sets of between the guide board, the both ends of connecting block respectively with two sets of guide board can dismantle the connection, the top of guide board is equipped with the slide.

Optionally, the distance between the two sets of guide plates is slightly larger than the diameter of the reaction cup.

Optionally, one side of the slideway far away from the cup throwing piece is provided with a limiting block for sealing the side of the slideway, and the limiting block is detachably connected between the two groups of guide plates.

Optionally, the cup throwing piece is in an arch straight cylinder shape, and one end close to the guide piece is a plane.

Optionally, the angle between the first guide block and the plane of the cup is 120-150 degrees.

Optionally, the second guide block is inclined towards the inner side of the cup throwing piece, and an angle between the second guide block and the plane of the cup throwing piece is 120-150 degrees.

An in vitro diagnostic sample analyzer comprising a parabolic cup structure for a reaction cup as described above.

Optionally, the distance between the cup throwing opening and the second guiding opening is larger than the length of the reaction cup.

The utility model has the beneficial effects that:

according to the utility model, the first guide block is arranged on the cup inlet, and is used for limiting and guiding the reaction cup, so that the reaction cup falls down in the cup throwing piece and then is thrown away from the cup throwing piece along with the second guide block under the guiding action of the second guide block, and the cup throwing device is simple and quick in structure and avoids the phenomenon of clamping and/or blocking the cup.

Drawings

Fig. 1 is a front view of a structure of a prophy angle for a reaction cup according to the present utility model.

Fig. 2 is a first perspective view of a structure of a prophy angle for a prophy angle of the present utility model.

Fig. 3 is a second perspective view of the structure of the prophy angle for a prophy angle of the present utility model.

Fig. 4 is a bottom view of the structure of the prophy angle for a prophy angle of the present utility model.

FIG. 5 is a cross-sectional view of a structure of a prophy angle for a prophy angle of the present utility model.

In the figure: 1. a cup throwing piece; 11. a first fixing seat; 12. a cup throwing opening; 13. a cup inlet; 14. a first guide block; 15. a second guide block; 2. a guide; 21. the second fixing seat; 22. a slideway; 23. a limiting block; 24. and (5) connecting a block.

Detailed Description

The present utility model will be described in further detail with reference to the accompanying drawings.

1-5, a cup throwing structure for a reaction cup comprises a cup throwing piece 1, wherein a cup throwing channel for the reaction cup to pass through is arranged on the cup throwing piece 1;

the cup throwing piece 1 is provided with a cup inlet 13 for a reaction cup to enter, the cup inlet 13 is communicated with a cup throwing channel, and the cup inlet 13 is provided with a first guide block 14;

the cup throwing piece 1 is further provided with a cup throwing opening 12 for discharging a cup, the cup throwing opening 12 is communicated with a cup throwing channel, the cup throwing opening 12 is provided with a second guide block 15 for guiding the reaction cup to be thrown away, and the second guide block 15 is close to the outlet end of the cup throwing opening 12.

It should be noted that the reaction cup enters the cup throwing member 1 from the cup inlet 13, is poured and slid into the cup throwing member 1 under the limit guiding action of the first guiding block 14, falls down in the cup throwing member 1, and is then thrown away from the cup throwing member 1 along the direction of the second guiding block 15 under the guiding action of the second guiding block 15.

As shown in fig. 2 and 4, it should be noted that in this embodiment, the apparatus further includes a guide 2 for guiding the reaction cup into the cup throwing member 1, and an outlet end of the guide 2 is matched with the cup inlet 13.

Further, in this embodiment, the guide member 2 includes two sets of guide plates, two sets of guide plates are provided with a connection block 24 of not less than two sets between the guide plates, two ends of the connection block 24 are detachably connected with the two sets of guide plates respectively, and a slide 22 is provided at the top end of the guide plate.

The slideway 22 of the guide member 2 is overlapped with the cup inlet 13, the reaction cup moves linearly along the slideway 22, and is close to the cup inlet 13, and the reaction cup falls down and slides into the cup throwing channel through the cup inlet 13 under the action of the first guide block 14.

It should be noted that the connection block 24 is detachably connected to the guide plate in such a manner that:

first, the two ends of the connecting block 24 are respectively provided with a clamping block, the guiding plate is provided with a clamping groove matched with the connecting block 24, and the connecting block 24 is in clamping connection with the clamping groove of the guiding plate through the clamping blocks;

second, the both ends of connecting block 24 all are equipped with the helicla flute, be equipped with on the guide board with helicla flute matched with screw, the guide board passes through the screw connection at the both ends of connecting block 24.

As shown in fig. 2 and 4, in this embodiment, two sets of guide plates are supported by the connecting block 24 at intervals, and the two sets of guide plates are parallel to each other, and the distance between the two sets of guide plates is slightly larger than the diameter of the reaction cup.

As shown in fig. 2 and 5, in this embodiment, the side of the slideway 22 away from the cup-throwing member 1 is an inlet end of the guide member 2, and a stopper 23 for closing the side of the slideway is disposed at the inlet end of the guide member 2, and the stopper 23 is detachably connected between the two sets of guide plates.

It should be noted that the manner of detachable connection between the stopper 23 and the guide plate is:

firstly, two ends of the limiting block 23 are respectively provided with at least one group of clamping blocks, the guide block is provided with clamping grooves matched with the clamping blocks, and the limiting block 23 is in clamping connection with the clamping grooves of the guide block through the clamping blocks;

second, the both ends of stopper 23 all are equipped with the helicla flute, be equipped with on the guide board with helicla flute matched with screw, stopper 23 passes through the both ends of screwed connection at connecting block 24.

It should be noted that, the cup wall of the reaction cup is provided with a limiting ring, and the distance between the guide plates is slightly larger than the diameter of the reaction cup, so that the cup body of the reaction cup is arranged between the guide plates, and the limiting ring is clamped on the chute and slides along the slideway 22;

when the reaction cup falls into the slideway 22, the reaction cup is prevented from falling off from one side of the slideway 22 far away from the cup throwing piece 1 under the action of the limiting block 23, so that the cup throwing error is avoided.

As shown in fig. 4, in this embodiment, the cup throwing member 1 has a straight arch shape, and an end near the guide member 2 is a plane.

It should be noted that, the cup throwing piece 1 is in a straight arched cylindrical shape, one end of the cup throwing piece 1, which is far away from the guide piece 2, is in an arched shape, and when the reaction cup falls in the cup throwing piece 1, the reaction cup can collide with the cup wall of the cup throwing piece 1, which is far away from the guide piece 2, because the inner wall of the cup throwing piece is in an arched shape, in the collision process, the reaction cup has a certain polymerization effect, so that the reaction cup is positioned in the center of the cup throwing piece 1, and the cup throwing process is smoother.

As shown in fig. 5, further, in this embodiment, the angle between the first guide 2 and the plane of the cup 1 is 120-150 degrees, preferably 135 degrees. The reaction cups are orderly guided into the cup throwing piece 1 through the first guide piece 2, so that the phenomenon of cup clamping or cup blocking is avoided.

As shown in fig. 5, further, in this embodiment, the second guide block 15 is inclined to the inner side of the cup 1, and the angle between the second guide block 15 and the plane of the cup 1 is 120 degrees to 150 degrees, preferably 135 degrees. Under the action of the second guide block 15, the reaction cup is thrown away from the cup-throwing member 1.

As shown in fig. 5, in this embodiment, the distance between the cup throwing opening 12 and the second guiding opening is larger than the length of the reaction cup. Under the design, the reaction cup has enough throwing space, and the phenomenon that the reaction cup is blocked and blocked at the throwing mouth 12 is avoided.

An in vitro diagnostic sample analyzer comprising the above-mentioned cup-throwing structure for a reaction cup, the cup-throwing member 1 being mounted on the in vitro diagnostic sample analyzer through the first fixing base 11, and the guide member 2 being mounted at a corresponding position of the in vitro diagnostic sample analyzer through the second fixing base 21.

The foregoing is merely a preferred embodiment of the utility model, and it should be noted that modifications and enhancements can be made by those skilled in the art without departing from the principles of the present utility model. Such modifications and variations are also considered to be a departure from the scope of the utility model.

Claims (10)

1. The cup throwing structure for the reaction cup is characterized by comprising a cup throwing piece, wherein a cup throwing channel for the reaction cup to pass through is arranged on the cup throwing piece;

the cup throwing piece is provided with a cup inlet for the reaction cup to enter, the cup inlet is communicated with the cup throwing channel, and the cup inlet is provided with a first guide block;

the cup throwing piece is also provided with a cup throwing opening for discharging the cup, the cup throwing opening is communicated with the cup throwing channel, and the cup throwing piece is provided with a second guide block for guiding the reaction cup to be thrown away.

2. A cup-throwing structure for a reaction cup as claimed in claim 1, further comprising a guide for guiding a reaction cup into a cup-throwing member, an outlet end of the guide being fitted with the cup-inlet opening.

3. The structure of claim 2, wherein the guide member comprises two sets of guide plates, at least three sets of connecting blocks are arranged between the two sets of guide plates, two ends of the connecting blocks are detachably connected with the two sets of guide plates respectively, and a slideway is arranged at the top end of the guide plate.

4. A teatcup structure for a reaction cup according to claim 3, wherein the distance between the two sets of guide plates is slightly larger than the diameter of the reaction cup.

5. A cup-throwing structure for a reaction cup as claimed in claim 3, wherein a stopper closing the side of the chute is provided on the side of the chute remote from the cup-throwing member, and the stopper is detachably connected between the two sets of guide plates.

6. A cup construction for a reaction cup as claimed in claim 2 wherein the cup member is in the form of a straight arch, the end adjacent the guide member being planar.

7. A cup-throwing structure for a reaction cup as claimed in claim 1 wherein the angle between the first guide block and the plane of the cup-throwing member is 120-150 degrees.

8. A cup-throwing structure for a reaction cup as claimed in claim 1, wherein the second guide block is inclined to the inside of the cup-throwing member, and an angle between the second guide block and a plane of the cup-throwing member is 120 degrees to 150 degrees.

9. A cup-throwing structure for a reaction cup as claimed in claim 1 or 6, wherein a distance between said cup-throwing opening and said second guide block is greater than a length of the reaction cup.

10. An in vitro diagnostic sample analyzer comprising a beaker structure for a cuvette according to any of claims 1 to 9.