CN110686932A

CN110686932A - A water quality testing sampling device for intelligent aquarium life support system

Info

Publication number: CN110686932A
Application number: CN201911084973.7A
Authority: CN
Inventors: 刘凯; 俞彤; 王秀萍; 吴小香; 韩兴鹏; 叶建生
Original assignee: Jiangsu Agri Animal Husbandry Vocational College
Current assignee: Jiangsu Agri Animal Husbandry Vocational College
Priority date: 2019-11-08
Filing date: 2019-11-08
Publication date: 2020-01-14
Anticipated expiration: 2039-11-08
Also published as: CN110686932B

Abstract

The invention relates to the technical field of intelligent aquariums and discloses a water quality detection sampling device for a life support system of an intelligent aquarium, which comprises a groove plate, wherein a first clamping plate is fixedly connected to the outer side of the groove plate; the movable rod makes the screw rod move left and right, cause first slide to reciprocate, provide the power supply for follow-up operation, when first slide moves down, make third slide and second slide present cascaded whereabouts, make its disposable can take a sample to the water layer of three kinds of depths, the sample bottle moves down, make the third gear take place to rotate, make the clockwise rotation of second gear arouse the apron to keep away from the discharge gate of sample bottle, after the appearance is accomplished to advance, the sample bottle shifts up and arouses the apron to be close to the introduction port, close the introduction port, guarantee the sample bottle when reciprocating, its introduction port is in the closed condition, be in the state of opening when being located the sampling position, when avoiding taking a sample to the deep layer, the water of shallow layer gets into in the sample bottle, sample detection to deep water causes the error.

Description

A water quality testing sampling device for intelligent aquarium life support system

Technical Field

The invention relates to the technical field of intelligent aquariums, in particular to a water quality detection sampling device for a life support system of an intelligent aquarium.

Background

The aquarium is a place for aquatic organism feeding display and science popularization education, and is also a place for aquatic organism resource protection and research, and the detection of the water quality of the aquarium is particularly important for maintaining the life activities of fishes in the aquarium.

Most of fishes in an aquarium are seawater fishes, in order to ensure that the fishes can live healthily, the water quality needs to be detected regularly, factors influencing the water quality mainly comprise water temperature, dissolved oxygen, salinity, nitrogen compounds, pH value, hardness, carbon dioxide, phosphate, copper ions, iron ions, silicates, other trace elements and oxidation-reduction potential, such as phosphate, phosphorus is nutritive salt for the growth of algae in seawater, but when the phosphorus content is too much, the algae can grow out of control, the ornamental effect is greatly influenced, the water quality can be seriously polluted, uneatened residual baits in water, metabolites of the fishes and corpses can mostly rot in the water due to ineffective treatment, and a large amount of nitrogen compounds can be released into the water by rotten substances, so that the growth speed of aquatic organisms can be slowed down, the immunity of the aquatic organisms is reduced, and even the organisms can die in serious cases, and because the fish of aquarium is numerous, different fishes select the water layer life at the different degree of depth according to the life habit, corresponding quality of water also is different, consequently, it seems especially necessary to detect the water layer of the different degree of depth, when current quality of water sampling equipment samples, only can go on the water layer of same degree of depth, time measuring is examined to the water layer of the different degree of depth, need manual regulation sampling mechanism's whereabouts height, in order to guarantee the accuracy of testing result, generally need take a sample many times, frequent adjustment sampling mechanism's height, be unfavorable for the long-term use of equipment, easily reduce its life, and the operation is also more loaded down with trivial details.

Aiming at the defects of the prior art, the invention provides the water quality detection sampling device for the intelligent aquarium life support system, which has the advantages of simultaneously sampling water layers with different depths and being convenient to operate, solves the problem of inconvenient operation, can sample the water layers with three depths at one time, is more convenient to operate, ensures that the sample inlet of the sample bottle is in a closed state when the sample bottle moves up and down, and is in an open state when the sample bottle is positioned at a sampling position, and avoids the problem that when the deep layer is sampled, shallow water enters the sample bottle to cause errors in the sample detection of the deep water.

Disclosure of Invention

Technical scheme (I)

In order to realize the purpose of simultaneously sampling water layers with different depths and being convenient to operate, the invention provides the following technical scheme: a water quality testing sampling device for intelligent aquarium life support system includes frid, first cardboard, bull stick, second cardboard, first gear, screw rod, carriage release lever, first slide, sample bottle, second slide, third slide, apron, second gear, first ratch, third gear, second ratch.

Wherein:

the position and connection relationship among the structures are as follows:

a water quality detection sampling device for an intelligent aquarium life support system comprises a groove plate, wherein a groove is formed in the surface of the groove plate, the size of the groove plate is matched with that of a first sliding plate, the outer side of the groove plate is fixedly connected with the first clamping plate, the outer side of the first clamping plate is movably connected with a rotating rod, the surface of the first clamping plate is provided with two notches with the same size, the rotating rods are two and have the same size and are respectively and movably connected with a third sliding plate and a second sliding plate, the rotating rod is T-shaped, the outer side of a short rod of the rotating rod is fixedly connected with a first convex column, the size of the rotating rod is matched with that of the notch of the first clamping plate, one side of the short rod, far away from the first convex column, is fixedly connected with a second convex column, one side of the rotating rod, far away from the first clamping plate, is movably connected with a second clamping plate, the second clamping plate is two and has the same size and, the size of the first gear is matched with that of the second rotating rod convex column, the first gear is movably connected to the outer side of the groove plate, the threaded hole is formed in the first gear, the size of the first gear is matched with that of the screw rod, the outer side of the screw rod is movably connected with the push rod, one side, away from the screw rod, of the push rod is movably connected with the moving rod, the outer side of the first gear is movably connected with the screw rod, and the outer side of the screw rod is movably connected with the moving rod.

The outer side of the groove plate is movably connected with a first sliding plate, the outer side of the first sliding plate is fixedly connected with sawteeth, the size of the sawteeth is matched with that of the first gear, the outer side of the first sliding plate is movably connected with sample bottles, the number of the sample bottles is three, the three sample bottles are respectively and fixedly connected with the first sliding plate, the second sliding plate and the third sliding plate, the outer side of the first sliding plate is movably connected with the second sliding plate, the surface of the second sliding plate is provided with a first sliding chute, the size of the first sliding plate is matched with that of the third sliding plate, the surface of the first sliding plate is provided with a second sliding chute, the size of the second sliding plate is matched with that of the second sliding plate, the outer side of the second sliding plate is movably connected with the third sliding plate, the top of the sample bottle is movably connected with a cover plate, the size of the cover plate is matched with that of a sample bottle inlet, the outer, the outside swing joint of apron has the second swing arm, one side and second gear fixed connection that the apron was kept away from to the second swing arm, the outside swing joint of apron has the second gear, the bottom swing joint of second gear has first ratch, first ratch comprises left side ratch and right side ratch, the size of its left side ratch and the size looks adaptation of second gear, the size of right side ratch and the size looks adaptation of third gear, the top swing joint of first ratch has the third gear, the size of third gear and the size looks adaptation of second ratch, the second ratch has threely and the size is the same, fixed connection is respectively in the frid, the outside of first slide and second slide, the outside swing joint of third gear has the second ratch.

(II) advantageous effects

Compared with the prior art, the invention provides a water quality detection sampling device for an intelligent aquarium life support system, which has the following beneficial effects:

1. under the combined action of the movable rod, the screw rod, the first gear and the first sliding plate, the movable rod enables the screw rod to move left and right to drive the first gear to rotate in a reciprocating mode, the first sliding plate is caused to move up and down, a power source is provided for follow-up operation, and sampling operation is facilitated.

2. Under the combined action of first slide, the second slide, the third slide, the bull stick, first cardboard and second cardboard, when first slide moves down, drive second slide and the synchronous downward shift of third slide, the bull stick of third slide and second slide is close to the upper and lower notch that is close to first cardboard respectively, the bull stick rotates clockwise, its first lug card is in last notch or lower notch department of first cardboard, the notch of second cardboard is kept away from to its second lug, the third slide no longer moves down along with the second slide, the second slide no longer moves down along with first slide, and first slide continues to move down to the lower, make third slide, second slide and first slide present cascaded whereabouts, make its disposable can sample the water layer of three kinds of depths, it is more convenient to operate.

3. Through the sample bottle, the third gear, the second rack, the second gear, under the combined action of first rack and apron, the sample bottle reciprocates, make the third gear be close to the second rack respectively, and mesh with the second rack, make the third gear take place to rotate, drive first rack and move to the left, make the discharge gate that the sample bottle was kept away from to second rack clockwise rotation and through second swing arm pulling apron, after the appearance was accomplished, the sample bottle moves up and arouses the synchronous rotation of second gear and drive the apron and be close to the introduction port, close the introduction port, guarantee the sample bottle when reciprocating, its introduction port is in the closed condition, be in the state of opening when being located the sampling position, when avoiding taking a sample to the deep layer, the water of shallow layer gets into the sample bottle in, sample detection to deep water causes the error.

Drawings

FIG. 1 is a schematic diagram of the present invention, wherein the structures are in an initial state and are not changed in position;

FIG. 2 is a schematic view of the present invention, wherein the first slide plate moves down to cause the second and third slide plates to move down;

FIG. 3 is a schematic view of the connection relationship between the rotating rod, the second clamping plate, the third sliding plate and the second sliding plate;

FIG. 4 is a schematic view of the connection relationship between the second clamping plate, the sample bottle and the first sliding plate;

FIG. 5 is a schematic view of the connection between the slot plate, the first gear and the moving rod of the present invention, wherein the structures are in a handling state and are not changed in position;

FIG. 6 is a schematic diagram showing the movement traces of the slot plate, the first gear and the moving rod according to the present invention, wherein the moving rod rotates due to the reciprocating rotation of the first gear;

FIG. 7 is a schematic view of the connection between the sample bottle and the third gear according to the present invention;

FIG. 8 is a schematic view of the connection between the cover plate and the third gear of the present invention, wherein the structures are in the initial state and are not changed in position;

FIG. 9 is a schematic diagram of the movement traces of the cover plate and the third gear in the structure of the present invention, when the third gear rotates to cause the cover plate to be far away from the sample inlet.

In the figure: the sample bottle comprises a 1-grooved plate, a 2-first clamping plate, a 3-rotating rod, a 4-second clamping plate, a 5-first gear, a 6-screw rod, a 7-moving rod, an 8-first sliding plate, a 9-sample bottle, a 10-second sliding plate, a 11-third sliding plate, a 12-cover plate, a 13-second gear, a 14-first toothed bar, a 15-third gear and a 16-second toothed bar.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-9, a water quality testing and sampling device for a life support system of an intelligent aquarium comprises a groove plate 1, a groove is formed on the surface of the groove plate 1, the size of the groove plate is matched with that of a first sliding plate 8, a first clamping plate 2 is fixedly connected to the outer side of the groove plate 1, a rotating rod 3 is movably connected to the outer side of the first clamping plate 2, two notches with the same size are formed on the surface of the first clamping plate 2, the rotating rod 3 is provided with two notches with the same size and is respectively movably connected with a third sliding plate 11 and a second sliding plate 10, the rotating rod 3 is in a T shape, a first convex column is fixedly connected to the outer side of a short rod, the size of the first convex column is matched with that of the notch of the first clamping plate 2, initially, the rotating rod 3 of the third sliding plate 11 is positioned above the notch of the first clamping plate 2, the rotating rod 3 of the second sliding plate 10 is positioned between the upper notch and lower notches of the first clamping plate 2, when the third sliding plate 11 or the second, the rotating rod 3 rotates clockwise, the first convex block of the rotating rod 3 is clamped in the groove, the third sliding plate 11 or the second sliding plate 10 is braked to be not moved downwards, and the second convex column is fixedly connected to one side, far away from the first convex column, of the short rod.

A second clamping plate 4 is movably connected to one side of the rotating rod 3, which is far away from the first clamping plate 2, two second clamping plates 4 are same in size and are fixedly connected with a second sliding plate 10 and a first sliding plate 8 respectively, notches are formed in the surface of the second clamping plate 4, the size of each second clamping plate 4 is matched with the size of a second convex column of the rotating rod 3, when the second convex column of the rotating rod 3 is clamped in the notches of the second clamping plates 4, a third sliding plate 11 and a second sliding plate 10, which are movably connected with the rotating rod 3 respectively, can move downwards along with the first sliding plate 8, a first gear 5 is movably connected to the outer side of the groove plate 1, a threaded hole is formed in the first gear 5, the size of each threaded hole is matched with the size of the screw 6, a push rod is movably connected to the outer side of the screw 6, the side, which is far away from the screw 6, is movably connected with the moving rod 7, a rotary table is fixedly connected to the outer side of the moving rod 7, when the, the first gear 5 is caused to rotate in a reciprocating manner, a screw 6 is movably connected to the outer side of the first gear 5, and a moving rod 7 is movably connected to the outer side of the screw 6.

The outside swing joint of frid 1 has first slide 8, the outside fixedly connected with sawtooth of first slide 8, its size and first gear 5's size looks adaptation, when making first gear 5 take place to rotate, can drive first slide 8 and reciprocate along the recess of frid 1, the outside swing joint of first slide 8 has sample bottle 9, sample bottle 9 has threely and the size is the same, respectively with first slide 8, second slide 10 and third slide 11 fixed connection, the outside swing joint of first slide 8 has second slide 10, first spout has been seted up on the surface of second slide 10, its size and third slide 11's size looks adaptation, the second spout has been seted up on the surface of first slide 8, its size and second slide 10's size looks adaptation.

The outer side of the second sliding plate 10 is movably connected with a third sliding plate 11, the top of the sample bottle 9 is movably connected with a cover plate 12, the size of the cover plate 12 is matched with the size of a sample inlet of the sample bottle 9, the outer side of the cover plate 12 is movably connected with two first rotary rods with the same size, one side of each first rotary rod, far away from the cover plate 12, is movably connected with the sample bottle 9, the outer side of the cover plate 12 is movably connected with a second rotary rod, one side of each second rotary rod, far away from the cover plate 12, is fixedly connected with a second gear 13, when the second gear 13 rotates, the second rotary rods are driven to synchronously rotate, the cover plate 12 is pulled to be far away from or close to the sample inlet of the sample bottle 9, the outer side of the cover plate 12 is movably connected with a second gear 13, the bottom of the second gear 13 is movably connected with a first toothed bar 14, the first toothed bar 14 consists of a left toothed bar and a right toothed bar, the size of the left toothed bar is matched with the size, the upper part of the first rack 14 is movably connected with a third gear 15, the size of the third gear 15 is matched with that of a second rack 16, the number of the second racks 16 is three, the second racks are the same in size and are respectively and fixedly connected to the outer sides of the groove plate 1, the first sliding plate 8 and the second sliding plate 10, the sample bottles 9 are enabled to be continuously close to the second rack 16 in the downward moving process, the third gear 15 on the outer side of the sample bottles 9 is enabled to rotate in a meshed mode with the third gear 15, the first rack 14 is driven to move left, the second gear 13 is enabled to rotate reversely, and the outer side of the third gear 15 is movably connected with the second rack 16.

The working process and the principle of the device are as follows:

the movable rod 7 rotates to drive the screw rod 6 to move left and right through the push rod, the screw rod 6 is matched with the thread-shaped hole of the first gear 5, the screw rod 6 is driven to move left and right and simultaneously drive the first gear 5 to rotate in a reciprocating manner, the saw teeth of the first sliding plate 8 are meshed with the first gear 5 to drive the first sliding plate 8 to move up and down along the groove of the groove plate 1, when the first sliding plate 8 moves down, the rotary rod 3 of the second sliding plate 10 is movably clamped in the groove opening of the second clamping plate 4 of the first sliding plate 8 through the second convex column of the short rod, simultaneously, the rotary rod 3 of the third sliding plate 11 is movably clamped in the groove opening of the second clamping plate 4 of the second sliding plate 10 through the second convex column of the short rod, the first sliding plate 8 moves down and simultaneously drives the second sliding plate 10 and the third sliding plate 11 to move down synchronously, the rotary rod 3 of the third sliding plate 11 is gradually close to the upper groove opening of the first clamping plate 2, the joint of the rotating rod 3 and the third sliding plate 11 is taken as a rotating point to rotate clockwise, the first lug of the rotating rod 3 is clamped at the upper notch of the first clamping plate 2, the second lug of the rotating rod is far away from the notch of the second clamping plate 4 at the outer side of the second sliding plate 10, the third sliding plate 11 does not move downwards along with the second sliding plate 10, the second sliding plate 10 continuously moves downwards to be close to the lower notch of the first clamping plate 2, the rotating rod 3 of the second sliding plate 10 rotates clockwise, the first lug of the rotating rod is clamped at the lower notch of the first clamping plate 2, the second lug is far away from the notch of the second clamping plate 4 at the outer side of the first sliding plate 8, the second sliding plate 10 does not move downwards along with the first sliding plate 8, and the first sliding plate 8 continuously moves downwards to; when first slide 8 moves up, second cardboard 4 in its outside is close to bull stick 3 of second slide 10, and the notch of second cardboard 4 is close to the second lug of bull stick 3, makes bull stick 3 reverse rotation, and the lower notch of first cardboard 2 is kept away from to first lug, and first slide 8 drives second slide 10 and moves up, and the 11 motion circumstances of third slide is unanimous with second slide 10, moves up along with second slide 10.

The structure and process are described with reference to FIGS. 1-6.

Three sample bottles 9 move up and down along with a first sliding plate 8, a second sliding plate 10 and a third sliding plate 11, namely when the three sample bottles move down to a specified position, a third gear 15 on the outer side of each of the three sample bottles 9 is close to a second sliding plate 10, a first sliding plate 8 and a second toothed bar 16 on the outer side of a groove plate 1 respectively, the third gear 15 is meshed with the second toothed bar 16, so that the third gear 15 rotates to drive a first toothed bar 14 to move left, the first toothed bar 14 drives a second gear 13 to rotate clockwise and pulls a cover plate 12 to be far away from a discharge hole of the sample bottle 9 through a second rotary bar, the two first rotary bars rotate clockwise by taking the connection part of the two first rotary bars and the sample bottle 9 as a rotation point, and support the cover plate 12 and enable the cover plate 12 to be far away from a sample injection hole under the combined; after the sample introduction is finished, the sample bottle 9 moves upwards to enable the third gear 15 to rotate reversely, so that the second gear 13 rotates synchronously and drives the cover plate 12 to be close to the sample inlet, and the sample inlet is closed.

The above structure and process are shown in FIGS. 7-9.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a water quality testing sampling device for intelligence aquarium life support system, includes frid (1), its characterized in that: a first clamping plate (2) is fixedly connected to the outer side of the groove plate (1), a rotating rod (3) is movably connected to the outer side of the first clamping plate (2), a second clamping plate (4) is movably connected to one side, far away from the first clamping plate (2), of the rotating rod (3), a first gear (5) is movably connected to the outer side of the groove plate (1), a screw rod (6) is movably connected to the outer side of the first gear (5), and a moving rod (7) is movably connected to the outer side of the screw rod (6);

the outside swing joint of frid (1) has first slide (8), the outside swing joint of first slide (8) has sample bottle (9), the outside swing joint of first slide (8) has second slide (10), the outside swing joint of second slide (10) has third slide (11), the top swing joint of sample bottle (9) has apron (12), the outside swing joint of apron (12) has second gear (13), the bottom swing joint of second gear (13) has first ratch (14), the top swing joint of first ratch (14) has third gear (15), the outside swing joint of third gear (15) has second ratch (16).

2. The water quality detection and sampling device for the intelligent aquarium life support system as recited in claim 1, wherein: the surface of frid (1) is seted up flutedly, and the size looks adaptation of its size and first slide (8), the outside fixedly connected with sawtooth of first slide (8), the size of its size and the size looks adaptation of first gear (5), and the screw thread form hole has been seted up to the inside of first gear (5), and the size looks adaptation of its size and screw rod (6), the outside swing joint of screw rod (6) has the push rod, and one side and carriage release lever (7) swing joint that screw rod (6) were kept away from to the push rod.

3. The water quality detection and sampling device for the intelligent aquarium life support system as recited in claim 1, wherein: two notches with the same size are formed in the surface of the first clamping plate (2), the rotating rods (3) are two and have the same size, and are movably connected with the third sliding plate (11) and the second sliding plate (10) respectively, the rotating rods (3) are T-shaped, the outer sides of the short rods are fixedly connected with first convex columns, the sizes of the short rods are matched with the size of the notches of the first clamping plate (2), and the short rods are far away from one sides of the first convex columns and are fixedly connected with second convex columns.

4. The water quality detection and sampling device for the intelligent aquarium life support system as recited in claim 1, wherein: the second clamping plates (4) are two and have the same size, and are fixedly connected with the second sliding plate (10) and the first sliding plate (8) respectively, notches are formed in the surfaces of the second clamping plates (4), and the sizes of the notches are matched with the sizes of the second convex columns of the rotating rods (3).

5. The water quality detection and sampling device for the intelligent aquarium life support system as recited in claim 1, wherein: the surface of the second sliding plate (10) is provided with a first sliding chute, the size of the first sliding chute is matched with that of the third sliding plate (11), the surface of the first sliding plate (8) is provided with a second sliding chute, the size of the first sliding chute is matched with that of the second sliding plate (10), and three sample bottles (9) are same in size and are fixedly connected with the first sliding plate (8), the second sliding plate (10) and the third sliding plate (11) respectively.

6. The water quality detection and sampling device for the intelligent aquarium life support system as recited in claim 1, wherein: the size of apron (12) and the size looks adaptation of sample bottle (9) introduction port, the outside swing joint of apron (12) has two first swing levers that the size is the same, and one side and sample bottle (9) swing joint of apron (12) are kept away from to first swing lever, and the outside swing joint of apron (12) has the second swing lever, and one side and second gear (13) fixed connection of apron (12) are kept away from to the second swing lever.

7. The water quality detection and sampling device for the intelligent aquarium life support system as recited in claim 1, wherein: first ratch (14) comprise left side ratch and right side ratch, the size of its left side ratch and the size looks adaptation of second gear (13), the size of right side ratch and the size looks adaptation of third gear (15), the size of third gear (15) and the size looks adaptation of second ratch (16), second ratch (16) have three and the same size, fixed connection is in the outside of frid (1), first slide (8) and second slide (10) respectively.