CN209772144U - Reagent bottle for automatic instrument detection - Google Patents

Abstract

Reagent bottle for automated instrument testing, including inclosed bottle, conical recess is seted up to the bottle bottom, the holding tank is seted up to the recess bottom, set up the sample storage pipe in the holding tank, sample storage pipe lateral part sets up the sample inlet hole, sample storage pipe lateral part sets up lower part open-ended control box, the inlet is seted up to control box lower part one side, control box lower part one side sets up the baffle of falling the L shape, the inlet can be sealed to one side curb plate of baffle, set up the floater in the spout, the floater rises to the back in the control box, touch with the opposite side curb plate of baffle, conical storage tank is seted up to the bottom of sample storage pipe. The utility model discloses a liquid in the bottle can get into the sample storage pipe, and when the intraductal liquid of sample storage reached and set for the liquid level, the floater was with baffle jack-up, seals the inlet to with the intraductal liquid of sample storage and the liquid separation in the bottle, avoid frequent sample to cause the liquid in the bottle to receive the pollution, because the conical storage tank is seted up to sample storage pipe bottom, can avoid remaining the more waste that leads to of liquid.

Description

Reagent bottle for automatic instrument detection

Technical Field

The utility model belongs to the technical field of experimental device and specifically relates to reagent bottle is used in automatic instrument detection.

Background

The existing reagent bottle for detecting the automatic instrument has flat bottom and larger bottom area, and when the liquid in the reagent bottle is gradually reduced to the bottom, the suction needle is easy to collide with the reagent bottle, so that the suction needle is damaged; when the liquid level in the reagent bottle is low to a certain degree, the suction needle does not suck liquid any more, the residual liquid is the residual liquid, and under the condition of the same residual height, the larger the bottle bottom area is, the larger the amount of the residual liquid is. In addition, the existing reagent bottle is easy to pollute the liquid in the reagent bottle due to frequent liquid taking, so that the detection result is inaccurate.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an automatic change instrument reagent bottle for detection, it can reduce and remain liquid, avoids the liquid in the reagent bottle to receive the pollution.

The utility model provides a technical scheme that its technical problem adopted is: a reagent bottle for automatic instrument detection comprises a closed bottle body, wherein a filling opening is arranged and communicated at the upper part of the bottle body, a conical groove is arranged at the bottom of the bottle body, a containing groove is arranged at the bottom of the groove, a sample storage pipe is arranged in the containing groove, the outer wall of the bottom of the sample storage pipe is tightly attached to the inner wall of the containing groove, the upper part of the sample storage pipe penetrates out of the upper part of the bottle body, a sliding groove is arranged at the side part of the containing groove, a sample inlet hole is arranged at the side part of the sample storage pipe, a control box with an open lower part is arranged at the side of the lower part of the control box, an inverted L-shaped baffle is arranged at one side of the lower part of the control box, the middle part of the baffle is hinged with the control box, the rotatable angle of the baffle is less than 90 degrees, a side plate at one side of, the sample storage tube is contacted with the side plate at the other side of the baffle plate, and the bottom of the sample storage tube is provided with a conical storage groove.

The utility model discloses a further solve the technical scheme that its technical problem adopted and be: the liquid inlet is positioned at the bottom of the groove. And the upper part of the sample storage tube is provided with a cover plate capable of sealing the sample storage tube.

The utility model has the advantages that: the utility model discloses can be when the intraductal no liquid of proof or liquid is less, the liquid of the internal baffle of pushing open is in proper order through the inlet, the control box, spout and sample inlet hole entering proof pipe, when the intraductal liquid of proof reaches the settlement liquid level, the floater is with baffle jack-up, make the baffle upset, seal the inlet, thereby with the intraductal liquid of proof and the internal liquid separation of bottle, it causes the internal liquid of bottle to receive the pollution to avoid frequently taking a sample, people can take a sample in the proof, the sample is accomplished the back, liquid in the bottle continues to flow in the proof intraductal, make things convenient for next sample, and because the conical storage tank is seted up to proof socle portion, be convenient for get liquid, avoid remaining the more waste that leads to of liquid.

Description of the drawings:

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

Detailed Description

A reagent bottle for automatic instrument detection is shown in figure 1 and comprises a closed bottle body 1, wherein the upper part of the bottle body 1 is provided with and communicated with a filling port 2, the bottom of the bottle body 1 is provided with a conical groove 3, the bottom of the groove 3 is provided with a containing groove 4, a sample storage tube 5 is arranged in the containing groove 4, the outer wall of the bottom of the sample storage tube 5 is tightly attached to the inner wall of the containing groove 4, the upper part of the sample storage tube 5 penetrates out of the upper part of the bottle body 1, the side part of the containing groove 4 is provided with a chute 6, the side part of the sample storage tube 5 is provided with a sample inlet hole 7, the side part of the sample storage tube 5 is provided with a control box 8 with an opening at the lower part, one side of the lower part of the control box 8 is provided with an inverted L-shaped baffle 10, the middle part of the baffle 10 is hinged with the control box 8, the rotatable angle of the baffle 10, a floating ball 11 is arranged in the sliding groove 6, the floating ball 11 can rise into the control box 8 along the sliding groove 6, the floating ball 11 is contacted with the other side plate of the baffle 10 after rising into the control box 8, and a conical storage groove 12 is formed in the bottom of the sample storage tube 5. When no liquid or less liquid exists in the sample storage tube 5, the liquid in the bottle body 1 can push the baffle 10 open to enter the sample storage tube 5 through the liquid inlet 9, the control box 8, the sliding groove 6 and the sample inlet hole 7 in sequence, when the liquid in the sample storage tube 5 reaches a set liquid level, the floating ball 11 jacks up the baffle 10 to turn over the baffle 10 and seal the liquid inlet 9, so that the liquid in the sample storage tube 5 is separated from the liquid in the bottle body 1, the liquid in the bottle body 1 is prevented from being polluted due to frequent sampling, people can sample in the sample storage tube 5, after sampling is completed, the liquid in the bottle body 1 continues to flow into the sample storage tube 5, next sampling is facilitated, and the conical storage groove 12 is formed in the bottom of the sample storage tube 5, so that liquid taking is facilitated, and waste caused by more residual liquid is avoided. People can pour liquid into the bottle body 1 through the pouring opening 2. The pouring opening 2 can be closed to avoid contamination of the liquid in the bottle 1.

As shown in FIG. 1, the loading port 9 is located at the bottom of the groove 3. This structure facilitates the liquid in the bottle body 1 to flow into the liquid inlet 9 through the tapered groove 3.

As shown in FIG. 1, a lid plate 13 capable of closing the cuvette 5 is provided above the cuvette 5. This kind of structure can seal the appearance pipe 5 when not taking a sample, avoids the liquid in the appearance pipe 5 to suffer from the pollution.

The floater 11 can with baffle 10 fixed connection, increase gravity, so that the increase pushes away the required effort of baffle 10, in order to avoid when the liquid in the bottle 1 is more, push the baffle 10 open by force, floater 11 and baffle 10 fixed connection, can also make when the liquid in the bottle 1 is less, baffle 10 can overcome the impact force to baffle 10 when the liquid flows, before floater 11 floats to the assigned position, make inlet 9 open all the time, the liquid of being convenient for passes through.

The embodiments of the present invention have been described with reference to the accompanying drawings, but these descriptions should not be construed as limiting the scope of the present invention, and the technical contents not described in detail in the present invention are known in the art.

Claims (3)

1. Automatic change instrument detection and use reagent bottle, its characterized in that: comprises a closed bottle body (1), the upper part of the bottle body (1) is provided with and communicated with a filling port (2), the bottom of the bottle body (1) is provided with a conical groove (3), the bottom of the groove (3) is provided with a containing groove (4), a sample storage pipe (5) is arranged in the containing groove (4), the outer wall of the bottom of the sample storage pipe (5) is tightly attached to the inner wall of the containing groove (4), the upper part of the sample storage pipe (5) penetrates out of the upper part of the bottle body (1), the lateral part of the containing groove (4) is provided with a chute (6), the lateral part of the sample storage pipe (5) is provided with a sample inlet hole (7), the lateral part of the sample storage pipe (5) is provided with a control box (8) with an opening at the lower part, one side of the lower part of the control box (8) is provided with a liquid inlet (9), one side of the lower part of the control box (8) is provided with an inverted L, the sampling hole (7) is communicated with the sliding chute (6), the sliding chute (6) is communicated with the lower opening of the control box (8), a floating ball (11) is arranged in the sliding chute (6), the floating ball (11) can rise into the control box (8) along the sliding chute (6), the floating ball (11) contacts with the other side plate of the baffle (10) after rising into the control box (8), and a conical storage groove (12) is formed in the bottom of the sample storage pipe (5).

2. The reagent bottle for testing of an automated apparatus according to claim 1, wherein: the liquid inlet (9) is positioned at the bottom of the groove (3).

3. The reagent bottle for testing of an automated apparatus according to claim 1, wherein: the upper part of the sample storage pipe (5) is provided with a cover plate (13) which can seal the sample storage pipe (5).