CN217960150U - Combined reagent container - Google Patents

Abstract

The utility model relates to the technical field of medical apparatus, in particular to a combined reagent container, which comprises a first reagent bottle, a second reagent bottle and a liquid pumping mechanism; the first reagent bottle is provided with a groove; the groove is positioned on the side edge of the first reagent bottle; the second reagent bottle is connected with the first reagent bottle in a sliding way and is positioned in the groove; the liquid pumping mechanism is positioned on one side of the first reagent bottle; the groove can be used for clamping and fixing the second reagent bottle, so that the second reagent bottle is fixed on the first reagent bottle, the first reagent bottle and the second reagent bottle can be respectively filled with different types of cleaning solution reagents, the cleaning solution reagents in the first reagent bottle and the second reagent bottle can be respectively extracted by the liquid extraction mechanism, and the cleaning solution reagents are sent into the urine analyzer through different pipelines; through installing second reagent bottle on first reagent bottle, realized two kinds of different washing liquid reagents of a container partial shipment, be convenient for take the use.

Description

Combined reagent container

Technical Field

The utility model relates to the technical field of medical equipment, especially, relate to a modular reagent container.

Background

Urine tests are one of three conventional items of modern medical clinical tests, in the existing urine analyzers, most of urine samples are sucked by a sampling needle to enter an internal channel for detection, and in order to avoid cross infection among different samples, when one sample is tested, a cleaning solution is needed to clean a liquid path channel and the inner wall and the outer wall of the sampling needle; due to the characteristics of urine samples, after a certain number of samples are measured, impurities or urine scale and the like are easily accumulated in pipelines, valves, counting cells or sheath flow devices inside the instrument, so that the condition that the measurement of the instrument is inaccurate or the instrument is damaged can be caused; generally, one cleaning solution can only be used for cleaning an internal liquid path system in a normal test, and a special powerful cleaning solution must be used when dirt in a pipeline needs to be cleaned powerfully, so that an instrument is generally provided with at least two cleaning solutions, wherein one cleaning solution is used for cleaning in a normal test, and the other cleaning solution is used for cleaning powerfully when needed; the 2 kinds or more than 2 kinds of cleaning fluids that present urine analysis appearance was equipped with all are the partial shipment in different containers basically, need the operator to dismantle respectively when the operation is used and change, and is very inconvenient.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a modular reagent container can the different types of washing liquid reagent of partial shipment, convenient to use.

In order to achieve the purpose, the utility model provides a combined reagent container, which comprises a first reagent bottle, a second reagent bottle and a liquid pumping mechanism; the first reagent bottle is provided with a groove; the groove is positioned on the side edge of the first reagent bottle; the second reagent bottle is connected with the first reagent bottle in a sliding mode and is positioned in the groove; the liquid pumping mechanism is positioned on one side of the first reagent bottle.

The first reagent bottle comprises a first bottle body, a first inner bottle cap, a first inner inserting tube and a first outer bottle cap; the first bottle body is connected with the second reagent bottle in a sliding mode and is positioned on the side edge of the second reagent bottle; the first inner bottle cap is in threaded connection with the first bottle body and is positioned on one side of the first bottle body; the first inner bottle cap is provided with a first vent hole; the first inner inserting pipe is communicated with the first inner bottle cap and is positioned in the first bottle body; the first outer bottle cap and the first inner bottle cap are in threaded connection and are located on the side edge of the first inner bottle cap.

Wherein, the first reagent bottle also comprises a first sealing rubber plug; the first sealing rubber plug is connected with the first inner bottle cap in a sliding way and is positioned on the inner side of the first inner bottle cap.

The second reagent bottle comprises a second bottle body, a second inner bottle cap, a second inner inserting tube and a second outer bottle cap; the second bottle body is connected with the first bottle body in a sliding mode and is positioned in the groove; the second inner bottle cap is in threaded connection with the second bottle body and is positioned on one side of the second bottle body; the second inner bottle cap is provided with a second vent hole; the second inner inserting pipe is communicated with the second inner bottle cap and is positioned inside the second bottle body; the second outer bottle cap is in threaded connection with the second inner bottle cap and is located on the side edge of the second inner bottle cap.

Wherein, the second reagent bottle also comprises a second sealing rubber plug; the second sealing rubber plug is connected with the second inner bottle cap in a sliding way and is positioned at the inner side of the second inner bottle cap.

Wherein the combined reagent container further comprises an encryption card; the encryption card is connected with the first bottle body in a sliding mode and is located on the side edge of the first bottle body.

The liquid pumping mechanism comprises an identification module, a downlink mechanism, a photoelectric sensor, two liquid pumping nozzles, two sealing rings and a liquid pumping module; the identification module is positioned at the side edge of the encryption card; the descending mechanism is positioned on the side edge of the first bottle body; the photoelectric sensor is electrically connected with the downlink mechanism and is positioned on the side edge of the downlink mechanism; the two liquid suction nozzles are respectively and fixedly connected with the descending mechanism and are respectively positioned on the side edges of the descending mechanism; the two sealing rings are respectively and fixedly connected with the two liquid pumping nozzles and are respectively positioned on the side edges of the two liquid pumping nozzles; the liquid pumping module is respectively communicated with the two liquid pumping nozzles and is positioned on the side edges of the two liquid pumping nozzles.

The utility model discloses a combined reagent container, first body can hold washing liquid reagent, when need not use washing liquid reagent, utilize the first outer bottle lid can seal the first inner bottle lid, prevent that the washing liquid reagent in the first body from receiving the pollution; when a cleaning liquid reagent is needed to be used, the first outer bottle cap is taken down, the liquid pumping mechanism extends into the first inner bottle cap, a liquid pump is arranged in the liquid pumping mechanism, and the cleaning liquid reagent in the first bottle body can be pumped by the liquid pump through the first inner insertion tube and is led into a urine analyzer; the first vent hole can ensure that the interior of the first bottle body is communicated with the atmospheric environment, so that a liquid pump in the liquid pumping mechanism can smoothly pump a cleaning liquid reagent.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a combined reagent container of the present invention.

Fig. 2 is a schematic structural diagram of a combined reagent container of the present invention, which does not include a liquid pumping module and two sealing rings.

Fig. 3 is an enlarged view of a detail a of fig. 2.

Fig. 4 is an enlarged partial view of detail B of fig. 2.

Fig. 5 is a schematic view of the connection structure of the first reagent bottle, the second reagent bottle and the encryption card of the present invention.

Fig. 6 is a cross-sectional view of a first reagent bottle and a second reagent bottle of the present invention.

Fig. 7 is a schematic diagram of a separation structure of the first reagent bottle, the second reagent bottle and the encryption card of the present invention.

1-a first reagent bottle, 2-a second reagent bottle, 3-a liquid pumping mechanism, 4-a encryption card, 10-a groove, 11-a first bottle body, 12-a first inner bottle cap, 13-a first inner insertion tube, 14-a first outer bottle cap, 15-a first sealing rubber plug, 16-a first vent hole, 21-a second bottle body, 22-a second inner bottle cap, 23-a second inner insertion tube, 24-a second outer bottle cap, 25-a second sealing rubber plug, 26-a second vent hole, 31-an identification module, 32-a descending mechanism, 33-a photoelectric sensor, 34-a liquid pumping nozzle, 35-a sealing ring and 36-a liquid pumping module.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. In addition, in the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

Referring to fig. 1 to 7, the present invention provides a combined reagent container: comprises a first reagent bottle 1, a second reagent bottle 2 and a liquid pumping mechanism 3; the first reagent bottle 1 is provided with a groove 10; the groove 10 is positioned on the side edge of the first reagent bottle 1; the second reagent bottle 2 is connected with the first reagent bottle 1 in a sliding way and is positioned in the groove 10; the liquid pumping mechanism 3 is positioned on one side of the first reagent bottle 1.

In this embodiment, the first reagent bottle 1 has a larger volume than the second reagent bottle 2, the groove 10 is designed by following the shape of the second reagent bottle 2, the second reagent bottle 2 can be clamped and fixed by using the groove 10, so that the second reagent bottle 2 is fixed on the first reagent bottle 1, the first reagent bottle 1 and the second reagent bottle 2 can respectively contain different types of cleaning solution reagents, the cleaning solution reagents in the first reagent bottle 1 and the second reagent bottle 2 can be respectively extracted by using the liquid extraction mechanism 3, and the cleaning solution reagents are sent into the urine analyzer through different pipelines; when the cleaning liquid reagent is filled, the second reagent bottle 2 can be taken down from the groove 10 on the first reagent bottle 1, so that confusion during filling of the cleaning liquid reagent is avoided; in this way, will second reagent bottle 2 is installed on first reagent bottle 1, realized two kinds of different washing liquid reagents of a container partial shipment, be convenient for take and use.

Further, the first reagent bottle 1 comprises a first bottle body 11, a first inner bottle cap 12, a first inner insert tube 13 and a first outer bottle cap 14; the first bottle body 11 is connected with the second reagent bottle 2 in a sliding manner and is positioned on the side edge of the second reagent bottle 2; the first inner bottle cap 12 is in threaded connection with the first bottle body 11 and is positioned on one side of the first bottle body 11; the first inner bottle cap 12 is provided with a first vent hole 16; the first inner insert tube 13 is communicated with the first inner bottle cap 12 and is positioned inside the first bottle body 11; the first outer bottle cap 14 is screwed with the first inner bottle cap 12 and is located on the side of the first inner bottle cap 12.

In the present embodiment, the first body 11 can contain a cleaning solution reagent, and when the cleaning solution reagent is not required to be used, the first inner cap 12 can be sealed by the first outer cap 14, so that the cleaning solution reagent in the first body 11 is prevented from being contaminated; when the cleaning liquid reagent is needed to be used, the first outer bottle cap 14 is removed, the liquid pumping mechanism 3 extends into the first inner bottle cap 12, a liquid pump is arranged in the liquid pumping mechanism 3, and the cleaning liquid reagent in the first bottle body 11 can be pumped by the liquid pump through the first inner insertion tube 13 and is led into the urine analyzer; the first vent hole 16 can ensure that the inside of the first bottle body 11 is communicated with the atmosphere, so that the liquid pump in the liquid pumping mechanism 3 can smoothly pump the cleaning liquid reagent.

Further, the first reagent bottle 1 further comprises a first sealing rubber plug 15; the first sealing rubber plug 15 is connected with the first inner bottle cap 12 in a sliding manner and is positioned on the inner side of the first inner bottle cap 12.

In this embodiment, the first sealing rubber plug 15 can seal the first inner bottle cap 12 when the cleaning solution reagent is not needed, so as to prevent the cleaning solution reagent in the first bottle body 11 from being contaminated; when the cleaning solution reagent is needed, the first sealing rubber plug 15 is taken out.

Further, the second reagent bottle 2 comprises a second bottle body 21, a second inner bottle cap 22, a second inner insertion tube 23 and a second outer bottle cap 24; the second bottle body 21 is slidably connected with the first bottle body 11 and is positioned in the groove 10; the second inner bottle cap 22 is in threaded connection with the second bottle body 21 and is positioned on one side of the second bottle body 21; the second inner bottle cap 22 is provided with a second vent hole 26; the second inner inserting tube 23 is communicated with the second inner bottle cap 22 and is positioned inside the second bottle body 21; the second outer bottle cap 24 is in threaded connection with the second inner bottle cap 22 and is located on the side of the second inner bottle cap 22.

In the present embodiment, the second body 21 can contain a cleaning solution reagent, and when the cleaning solution reagent is not needed, the second inner bottle cap 22 can be sealed by the second outer bottle cap 24, so that the cleaning solution reagent in the second body 21 is prevented from being contaminated; when the cleaning liquid reagent is needed to be used, the second outer bottle cap 24 is removed, the liquid pumping mechanism 3 is inserted into the second inner bottle cap 22, a liquid pump is arranged in the liquid pumping mechanism 3, and the cleaning liquid reagent in the second bottle body 21 can be pumped by the liquid pump through the second inner insertion tube 23 and is introduced into the urine analyzer; the second vent hole 26 can ensure that the interior of the second bottle body 21 is communicated with the atmosphere, so that the liquid pump in the liquid pumping mechanism 3 can smoothly pump the cleaning liquid reagent.

Further, the second reagent bottle 2 further comprises a second sealing rubber plug 25; the second sealing rubber plug 25 is connected with the second inner bottle cap 22 in a sliding manner and is positioned on the inner side of the second inner bottle cap 22.

In this embodiment, the second sealing rubber plug 25 can seal the second inner bottle cap 22 when the cleaning solution reagent is not needed, so as to prevent the cleaning solution reagent in the second bottle body 21 from being contaminated; when the cleaning solution reagent is needed, the second sealing rubber plug 25 is taken out.

Further, the combined reagent container also comprises an encryption card 4; the encryption card 4 is connected with the first bottle body 11 in a sliding manner and is positioned on the side edge of the first bottle body 11.

In this embodiment, the encryption card 4 can identify the relevant information of the cleaning solution reagent in cooperation with the encryption card identification device at the instrument end, thereby avoiding misusing the cleaning solution reagent.

Further, the liquid pumping mechanism 3 comprises an identification module 31, a downlink mechanism 32, a photoelectric sensor 33, two liquid pumping nozzles 34, two sealing rings 35 and a liquid pumping module 36; the identification module 31 is positioned at the side of the encryption card 4; the descending mechanism 32 is positioned at the side of the first bottle body 11; the photoelectric sensor 33 is electrically connected with the descending mechanism 32 and is positioned at the side edge of the descending mechanism 32; the two liquid suction nozzles 34 are respectively and fixedly connected with the descending mechanism 32 and are respectively positioned on the side edges of the descending mechanism 32; the two sealing rings 35 are respectively fixedly connected with the two liquid drawing nozzles 34 and are respectively positioned on the side edges of the two liquid drawing nozzles 34; the liquid extracting module 36 is respectively communicated with the two liquid extracting nozzles 34 and is positioned at the side of the two liquid extracting nozzles 34.

In this embodiment, when a cleaning solution reagent is needed to be used, the first bottle body 11 and the second bottle body 21 are placed at two liquid pumping nozzles 34, the identification module 31 identifies the encryption card 4, a mechanism capable of pushing the two liquid pumping nozzles 34 to move longitudinally is arranged in the descending mechanism 32, after confirming that the encrypted information is correct, the descending mechanism 32 pushes the two liquid pumping nozzles 34 to be respectively inserted into the first inner bottle cap 12 and the second inner bottle cap 22, whether the liquid pumping nozzles 34 descend to the right position is detected through the photoelectric sensor 33, a pipeline respectively communicated with the two liquid pumping nozzles 34 and a liquid pump are arranged on the liquid pumping module 36, and the liquid pump pumps corresponding cleaning solution reagents into the urine analyzer for cleaning according to different cleaning solution reagents needed; the sealing ring 35 can improve the sealing performance between the liquid suction nozzle 34 and the first inner bottle cap 12 and the second inner bottle cap 22.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made without departing from the spirit and scope of the invention.

Claims (7)

1. A combined reagent container is characterized in that,

the device comprises a first reagent bottle, a second reagent bottle and a liquid pumping mechanism; the first reagent bottle is provided with a groove; the groove is positioned on the side edge of the first reagent bottle; the second reagent bottle is connected with the first reagent bottle in a sliding mode and is positioned in the groove; the liquid pumping mechanism is positioned on one side of the first reagent bottle.

2. The unitized reagent container of claim 1,

the first reagent bottle comprises a first bottle body, a first inner bottle cap, a first inner inserting tube and a first outer bottle cap; the first bottle body is connected with the second reagent bottle in a sliding mode and is positioned on the side edge of the second reagent bottle; the first inner bottle cap is in threaded connection with the first bottle body and is positioned on one side of the first bottle body; the first inner bottle cap is provided with a first vent hole; the first inner inserting pipe is communicated with the first inner bottle cap and is positioned inside the first bottle body; the first outer bottle cap and the first inner bottle cap are in threaded connection and are positioned on the side edge of the first inner bottle cap.

3. The unitized reagent vessel of claim 2,

the first reagent bottle also comprises a first sealing rubber plug; the first sealing rubber plug is connected with the first inner bottle cap in a sliding way and is positioned on the inner side of the first inner bottle cap.

4. A unitized reagent container according to claim 3,

the second reagent bottle comprises a second bottle body, a second inner bottle cap, a second inner inserting tube and a second outer bottle cap; the second bottle body is connected with the first bottle body in a sliding mode and is positioned in the groove; the second inner bottle cap is in threaded connection with the second bottle body and is positioned on one side of the second bottle body; the second inner bottle cap is provided with a second vent hole; the second inner inserting pipe is communicated with the second inner bottle cap and is positioned inside the second bottle body; the second outer bottle cap is in threaded connection with the second inner bottle cap and is located on the side edge of the second inner bottle cap.

5. A unitized reagent container according to claim 4,

the second reagent bottle also comprises a second sealing rubber plug; the second sealing rubber plug is connected with the second inner bottle cap in a sliding way and is positioned at the inner side of the second inner bottle cap.

6. A unitized reagent container according to claim 5,

the combined reagent container also comprises an encryption card; the encryption card is connected with the first bottle body in a sliding mode and is located on the side edge of the first bottle body.

7. The unitized reagent container of claim 6,

the liquid pumping mechanism comprises an identification module, a downlink mechanism, a photoelectric sensor, two liquid pumping nozzles, two sealing rings and a liquid pumping module; the identification module is positioned on the side edge of the encryption card; the descending mechanism is positioned at the side edge of the first bottle body; the photoelectric sensor is electrically connected with the downlink mechanism and is positioned on the side edge of the downlink mechanism; the two liquid suction nozzles are respectively and fixedly connected with the descending mechanism and are respectively positioned on the side edges of the descending mechanism; the two sealing rings are respectively and fixedly connected with the two liquid pumping nozzles and are respectively positioned on the side edges of the two liquid pumping nozzles; the liquid pumping module is respectively communicated with the two liquid pumping nozzles and is positioned on the side edges of the two liquid pumping nozzles.

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