CN215701592U - A toolbox that is arranged in poisonous and harmful inorganic poison of on-spot water sample to detect - Google Patents

Abstract

The utility model discloses a tool box for detecting toxic and harmful inorganic poisons in a field water sample; the box body comprises a first box cover and a second box cover which is in twisted connection with the first box cover, and a containing part is arranged between the first box cover and the second box cover; the accommodating part comprises a first accommodating piece fixed in the first box cover and a second accommodating piece fixed in the second box cover, and the first accommodating piece is provided with a first storage pocket and a second storage pocket; the second accommodating piece is provided with an accommodating groove; the notch of the containing tank is covered with a blocking net, a plurality of label parts are arranged in the box body, and each label part is respectively arranged at the notch of the containing tank, the surface of the first bag storage and the surface of the second bag storage; the sewage is convenient for on-site detection, and detection articles are convenient to take, so that the time difference is reduced, and the requirements of medicine rings and environmental protection supervision departments are met conveniently.

Description

A toolbox that is arranged in poisonous and harmful inorganic poison of on-spot water sample to detect

Technical Field

The utility model relates to the technical field of sewage treatment, in particular to a tool box for detecting toxic and harmful inorganic poisons in a field water sample.

Background

The drug administration and environmental protection supervision departments need to detect sewage discharged by various industries in daily supervision work and qualitatively or quantitatively detect ions of various heavy metal ions and other toxic and harmful organic matters in collected sewage.

The existing technical means needs to bring the discharged sewage and the like back to a laboratory for detection and then provide a detection report, although the scheme can obtain an accurate result, the required time is long, the discharged result cannot be directly known in a field for field supervision, a certain time difference occurs, and the timeliness requirements of field law enforcement of a medicine taking ring and an environmental protection supervision department cannot be met.

The existing tool box has the advantages that the placing positions of articles such as detection reagents and sampling tools are not fixed, and the articles are placed in a mess, so that the article taking time is prolonged, and the field detection time of sewage is prolonged.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects of the prior art, the utility model provides the tool box for detecting the toxic and harmful inorganic toxicants in the field water sample, which is convenient for detecting the sewage on site and taking detection articles, thereby reducing the time difference and meeting the timeliness requirements of the field law enforcement of the food and drug ring and the environmental protection supervision department.

In order to achieve the aim, the utility model provides a tool box for detecting toxic and harmful inorganic poisons in on-site water samples; the box body comprises a first box cover and a second box cover which is in twisted connection with the first box cover, and a containing part is arranged between the first box cover and the second box cover;

the accommodating part comprises a first accommodating piece fixed in the first box cover and a second accommodating piece fixed in the second box cover, and the first accommodating piece is provided with a first storage pocket and a second storage pocket; the second accommodating piece is provided with an accommodating groove;

the notch department of holding tank covers has the fender net, is equipped with a plurality of label portions in the box, and the notch department, the first pocket surface and the second storage pocket surface of holding tank are located respectively to label portion.

As the improvement of the above scheme, the second storage pocket comprises a first retaining pocket, a second retaining pocket and a hole type limiting part, the pocket mouth of the first retaining pocket and the pocket mouth of the second retaining pocket are arranged oppositely, and the hole type limiting part is located between the first retaining pocket and the second retaining pocket.

As the improvement of above-mentioned scheme, keep off the net including fixed net limit and installation net limit, fixed net limit and installation net limit locate the notch week side of holding tank.

As an improvement of the scheme, the first label piece is fixed on the edge of the fixing net.

As the improvement of the scheme, the bottom of the second accommodating piece is fixed in the second box cover, the accommodating tank comprises a first storage tank, a second storage tank, a third storage tank and a fourth storage tank, the tank edges of the first storage tank, the second storage tank, the third storage tank and the fourth storage tank are flush with the top of the second accommodating piece, and the notches of the first storage tank, the second storage tank and the third storage tank are covered with blocking nets.

As the improvement of the scheme, the label part comprises a plurality of first label pieces, a plurality of second label pieces and a third label piece, wherein each first label piece is arranged beside the notches of the first storage tank, the second storage tank and the fourth storage tank, the second label pieces are arranged on the surfaces of the first storage bag and the second storage bag, and the third label piece covers the notch of the fourth storage tank.

As an improvement of the scheme, the second storage tank is embedded with a snap ring.

As the improvement of above-mentioned scheme, the gomphosis of third storage tank is connected with the test-tube rack, and the test-tube rack includes frame plate and connecting piece, and the one end integrated into one piece of connecting piece is connected on the frame plate, the inner wall gomphosis of the other end and third storage tank, is equipped with test tube card hole on the frame plate.

As an improvement of the scheme, the first storage pocket is a net-shaped storage pocket.

As the improvement of the above scheme, the first accommodating part further comprises a third storage pocket, the bottom surface of the third storage pocket is fixed on the surface of the first accommodating part, and the first storage pocket and the second storage pocket are both fixed on the top surface of the third storage pocket.

The tool box for detecting the toxic and harmful inorganic toxicants in the field water sample has the beneficial effects that: place detect reagent classification in the holding tank, place the instrument classification of usefulness in the holding tank, first store up pocket and second and store up in the pocket, position to detect reagent and the instrument of usefulness is injectd, avoid detect reagent, the confusion of placing of the instrument of usefulness detects, utilize and keep off the net and shelter from the holding tank, article of avoiding putting into in the holding tank drop from holding the groove, further avoid detect reagent, the confusion of placing of the instrument of usefulness detects, recycle label portion places the sign and signs, thereby to placing in the holding tank, first store up pocket and second and store up the article in the pocket and carry out the sign, convenient to use person takes, thereby reduce the witnessed inspections time of sewage, reduce the time difference, be convenient for witnessed inspections sewage, also satisfy the ageing requirement of the on-the-site law enforcement of edible medicine ring and environmental protection supervision department.

Drawings

FIG. 1 is a diagram of the use of a kit for the detection of toxic and harmful inorganic toxins in on-site water samples in accordance with one embodiment of the present invention;

fig. 2 is an enlarged view of a in fig. 1.

The figure shows that: 100. a box body; 110. a first cover; 120. a second cover; 200. an accommodating portion; 210. a first receiving member; 211. a third storage pocket; 220. a second receiving member; 300. a first storage pocket; 400. a second storage pocket; 410. a first pocket; 420. a second baffle pocket; 430. a hole-type limiting piece; 500. accommodating grooves; 510. a first reservoir; 520. a second reservoir; 530. a third reservoir; 540. a fourth reservoir; 600. blocking the net; 610. fixing the net edge; 620. installing a net edge; 700. a label portion; 710. a first tab member; 720. a second tab member; 730. a third tab member; 800. a snap ring; 900. a test tube rack; 910. a frame plate; 920. a connecting member; 930. the test tube is clamped in the hole.

Detailed Description

The utility model will be better understood by the public by the following description of an embodiment, but the specific embodiment given by the applicant should not be taken as limiting the technical solution of the utility model, and any modification of the definition of the braking member or the technical features and/or the form of the whole structure without substantial changes should be taken as the protection scope defined by the technical solution of the utility model.

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

Fig. 1-2 schematically illustrate a kit for the detection of toxic and hazardous inorganic poisons in on-site water samples in accordance with an embodiment of the present invention. As shown in fig. 1-2, the apparatus includes a case 100, the case 100 includes a first cover 110 and a second cover 120 hinged to the first cover 110, and a receiving portion 200 is disposed between the first cover 110 and the second cover 120;

the receiving part 200 includes a first receiving member 210 fixed in the first cover 110, and a second receiving member 220 fixed in the second cover 120, the first receiving member 210 being provided with a first storage pocket 300 and a second storage pocket 400; the second accommodating member 220 is provided with an accommodating groove 500;

the retaining net 600 covers the notch of the accommodating groove 500, a plurality of label parts 700 are arranged in the box body 100, and the label parts 700 are respectively arranged at the notch of the accommodating groove 500, the surface of the first storage pocket 300 and the surface of the second storage pocket 400;

place detect reagent classification in holding tank 500, place the instrument classification of usefulness in holding tank 500 with detecting, first pocket 300 and the second of storing up in pocket 400 store up, position to detect reagent and the instrument of usefulness is injectd, avoid detect reagent, the confusion of placing of the instrument of usefulness is detected, utilize and keep off net 600 and shelter from holding tank 500, the article of avoiding putting into in holding tank 500 drops from holding tank 500, further avoid detect reagent, the confusion of placing of the instrument of usefulness is detected, recycle label portion 700 and place the sign, thereby to placing in holding tank 500, first pocket 300 and the second of storing up stores up the article in pocket 400 and carry out the sign, convenient to use person takes, thereby reduce the on-the-site test time of sewage, reduce the time difference, be convenient for the on-site detection sewage, also satisfy the ageing requirement of the on-site law enforcement of edible medicine ring and environmental protection supervision department.

Referring to fig. 1-2, the second pocket 400 includes a first pocket 410, a second pocket 420, and a hole-type stopper 430, an inlet of the first pocket 410 is right opposite to an inlet of the second pocket 420, and the hole-type stopper 430 is located between the first pocket 410 and the second pocket 420;

when detecting, need use the detection reagent of medicine spoon collection solid form of taking, utilize the second to store up pocket 400 and place the medicine spoon, utilize first fender pocket 410, second fender pocket 420 and pass locating part 430 to place the injecing to the three position of medicine spoon, strengthen the position of the article of putting into and restrict, avoid the position of the article of putting into mixed and disorderly.

Referring to fig. 1-2, the baffle net 600 includes a fixed net edge 610 and an installation net edge 620, the fixed net edge 610 and the installation net edge 620 are disposed on the notch periphery side of the accommodating groove 500, the fixed net edge 610 is integrally formed on the notch periphery side of the accommodating groove 500, that is, the fixed net edge 610 is integrally formed on the top of the second accommodating part 220, the installation net edge 620 is bonded to the notch periphery side of the accommodating groove 500, that is, the installation net edge 620 is bonded to the top of the second accommodating part 220; the blocking net 600 is used for preventing the articles placed in the holding tank 500 from falling off from the holding tank 500, and the articles in the holding tank 500 can be conveniently taken and placed.

Referring to fig. 1-2, a first tab member 710 is secured to the fixed web edge 610 to identify an item that is received in the receiving channel 500.

Referring to fig. 1-2, the bottom of the second container 220 is fixed in the second cover 120, the accommodating groove 500 includes a first reservoir 510, a second reservoir 520, a third reservoir 530 and a fourth reservoir 540, the edges of the first reservoir 510, the second reservoir 520, the third reservoir 530 and the fourth reservoir 540 are flush with the top of the second container 220, and the notches of the first reservoir 510, the second reservoir 520 and the third reservoir 530 are covered with a barrier 600;

five first storage tanks 510 are provided, eight second storage tanks 520 are provided, one third storage tank 530 is provided, and two fourth storage tanks 540 are provided;

qualitative detection is carried out on copper ions, chromium ions, cadmium ions, lead ions and mercury ions in the sewage by adopting a colloidal gold method technology, and semi-quantitative detection is carried out on arsenide, cyanide and nitrite in the sewage by adopting a chemical color development method technology, so that eight detection reagents are placed in the holding tank 500; copper ion detection reagent, chromium ion detection reagent, cadmium ion detection reagent, lead ion detection reagent and mercury ion detection reagent are all bag type packaging detection reagents, nitrite detection reagent, arsenide detection reagent and cyanide detection reagent are all tank type packaging detection reagents, the copper ion detection reagent, chromium ion detection reagent, cadmium ion detection reagent, lead ion detection reagent and mercury ion detection reagent are respectively placed in five first storage tanks 510, the nitrite detection reagent is separately placed in one second storage tank 520, because the arsenide detection reagent and the cyanide detection reagent both comprise three parts of detection reagents, the three detection reagents of the arsenide detection reagent are respectively placed in three continuously distributed second storage tanks 520, the three detection reagents of the cyanide detection reagent are respectively placed in three continuously distributed second storage tanks 520, a buffer salt solution is required in the detection of the nitrite detection reagent, the buffered saline solution is also packaged in a tank type, and the buffered saline solution is placed in the eighth second storage tank 520; a disposable test tube is placed in the third storage tank 530, one of the fourth storage tanks 540 is used for placing a pH test paper, and the other one is used for placing a disposable pipette; different articles such as detection reagent are placed in a classified mode, the articles are prevented from being taken by mistake, and the time for field sewage detection is shortened.

Referring to fig. 1-2, the label portion 700 includes a plurality of first label pieces 710, a plurality of second label pieces 720, and a third label piece 730, each of the first label pieces 710 is disposed beside the notches of the first reservoir 510, the second reservoir 520, and the fourth reservoir 540, i.e., each of the first label pieces 710 is fixed beside the notches of the first reservoir 510, the second reservoir 520, and the fourth reservoir 540, respectively, the second label pieces 720 are disposed on the surfaces of the first storage pocket 300 and the second storage pocket 400, i.e., each of the second label pieces 720 is fixed on the surfaces of the first storage pocket 300 and the second storage pocket 400, respectively, the third label piece 730 covers the notch of the fourth reservoir 540, one end of the third label piece 730 is fixed on the periphery of the notch of the fourth reservoir 540, and the other end of the third label piece 730 is bonded to the periphery of the notch of the fourth reservoir 540; utilize label portion 700 to place the sign label, utilize third label piece 730 to realize the sign to the article in the fourth storage tank 540, also can realize fixedly, put into PH test paper and disposable straw respectively toward two fourth storage tanks 540, through the simple injecion of third label piece 730 to PH test paper and disposable straw, avoid the fourth storage tank 540 that breaks away from of PH test paper and disposable straw.

Referring to fig. 1 to 2, a snap ring 800 is inserted into the second reservoir 520, the snap ring 800 has a structure with a large top and a small bottom, the bottom of the snap ring 800 is inserted into the second reservoir 520, the top of the snap ring 800 covers the periphery of the notch of the second reservoir 520, and a detection reagent packaged in a canister type or other articles packaged in a canister type penetrates through the snap ring 800 and is placed into the second reservoir 520, so that the fixation of the detection reagent or other articles in the second reservoir 520 is enhanced.

Referring to fig. 1-2, the third storage tank 530 is connected with a test tube rack 900 in an embedded manner, the test tube rack 900 includes a rack plate 910 and a connecting member 920, one end of the connecting member 920 is integrally formed on the rack plate 910, the other end of the connecting member 920 is connected with the inner wall of the third storage tank 530 in an embedded manner, and the rack plate 910 is provided with a test tube clamping hole 930, so that a test tube can be conveniently placed into the third storage tank 530 and can be conveniently taken.

Referring to fig. 1 to 2, the first storage pocket 300 is a net-shaped storage pocket for facilitating viewing of information of the inserted items.

Referring to fig. 1-2, first holding member 210 still includes the third and stores up pocket 211, the bottom surface that the third stored up pocket 211 is fixed in the surface of first holding member 210, first pocket 300 and the second of storing up pocket 400 and all being fixed in the top surface that the third stored up pocket 211, the increase holding capacity, and can classify the instrument of putting into some sewage detections, the quantity that first pocket 300 stored up is equipped with two, the second stores up pocket 400 and locates between two first pockets 300 that store up, utilize first pocket 300 that stores up to put some disposable gauze masks and disposable gloves, and put into two first pockets 300 that store up with disposable gauze mask and disposable gloves classification, utilize second pocket 400 that stores up to put the medicine spoon.

Referring to fig. 1-2, the working principle of the kit for detecting toxic and harmful inorganic poisons in on-site water samples of the utility model is as follows: place detect reagent classification in holding tank 500, place the instrument classification of usefulness in holding tank 500 with detecting, first pocket 300 and the second of storing up in pocket 400 store up, position to detect reagent and the instrument of usefulness is injectd, avoid detect reagent, the confusion of placing of the instrument of usefulness is detected, utilize and keep off net 600 and shelter from holding tank 500, the article of avoiding putting into in holding tank 500 drops from holding tank 500, further avoid detect reagent, the confusion of placing of the instrument of usefulness is detected, recycle label portion 700 and place the sign, thereby to placing in holding tank 500, first pocket 300 and the second of storing up stores up the article in pocket 400 and carry out the sign, convenient to use person takes, thereby reduce the on-the-site test time of sewage, reduce the time difference, be convenient for the on-site detection sewage, also satisfy the ageing requirement of the on-site law enforcement of edible medicine ring and environmental protection supervision department.

The foregoing are only some embodiments of the utility model. It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the inventive concept thereof, and these changes and modifications can be made without departing from the spirit and scope of the utility model.

Claims (10)

1. A tool box for detecting toxic and harmful inorganic poisons in a field water sample is characterized by comprising a box body, wherein the box body comprises a first box cover and a second box cover which is in twisted connection with the first box cover, and a containing part is arranged between the first box cover and the second box cover;

the accommodating part comprises a first accommodating piece fixed in the first box cover and a second accommodating piece fixed in the second box cover, and the first accommodating piece is provided with a first storage pocket and a second storage pocket; the second accommodating piece is provided with an accommodating groove;

the notch department of holding tank covers has the fender net, is equipped with a plurality of label portions in the box, and the notch department, the first pocket surface and the second storage pocket surface of holding tank are located respectively to each label portion.

2. The kit of claim 1, wherein the second storage pocket comprises a first retaining pocket, a second retaining pocket, and a hole-type limiting member, wherein an inlet of the first retaining pocket is disposed opposite to an inlet of the second retaining pocket, and the hole-type limiting member is disposed between the first retaining pocket and the second retaining pocket.

3. The kit for detecting toxic or harmful inorganic toxins in water samples as claimed in claim 1, wherein the retaining net comprises a fixing net edge and a mounting net edge, and the fixing net edge and the mounting net edge are disposed around the notch of the accommodating tank.

4. A kit for the detection of toxic or hazardous inorganic poisons in water samples as claimed in claim 3, in which the first label member is secured to the securing web.

5. The kit for detecting toxic and harmful inorganic toxins in on-site water samples according to claim 1, wherein the bottom of the second accommodating member is fixed in the second cover, the accommodating groove comprises a first storage tank, a second storage tank, a third storage tank and a fourth storage tank, the edges of the first storage tank, the second storage tank, the third storage tank and the fourth storage tank are flush with the top of the second accommodating member, and the notches of the first storage tank, the second storage tank and the third storage tank are covered with blocking nets.

6. The kit of claim 5, wherein the label portion comprises a plurality of first label members, a plurality of second label members, and a third label member, each of the first label members is disposed beside the notches of the first storage tank, the second storage tank, and the fourth storage tank, the second label members are disposed on the surfaces of the first storage bag and the second storage bag, and the third label member covers the notch of the fourth storage tank.

7. The kit for detecting toxic or harmful inorganic toxins in water samples as claimed in claim 5, wherein the second reservoir is embedded with a snap ring.

8. The kit according to claim 5, wherein the third storage tank is connected with a test tube rack in an embedded manner, the test tube rack comprises a frame plate and a connecting member, one end of the connecting member is integrally formed on the frame plate, the other end of the connecting member is connected with the inner wall of the third storage tank in an embedded manner, and the frame plate is provided with a test tube clamping hole.

9. The kit for the detection of toxic or harmful inorganic toxins in on-site water samples of claim 1, wherein the first storage pocket is a net-shaped storage pocket.

10. The kit of claim 1, wherein the first receptacle further comprises a third storage pocket, wherein a bottom surface of the third storage pocket is secured to a surface of the first receptacle, and wherein the first storage pocket and the second storage pocket are both secured to a top surface of the third storage pocket.

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