CN113030410B

CN113030410B - Water quality acquisition and detection equipment

Info

Publication number: CN113030410B
Application number: CN202110229645.2A
Authority: CN
Inventors: 王珏; 周骥
Original assignee: Wuxi Chaotic Energy Technology Co ltd
Current assignee: Wuxi Chaotic Energy Technology Co ltd
Priority date: 2021-03-02
Filing date: 2021-03-02
Publication date: 2022-12-09
Anticipated expiration: 2041-03-02
Also published as: CN113030410A

Abstract

The invention relates to the technical field of water quality detection, in particular to water quality collection and detection equipment which comprises a water flow box, a conveying test paper mechanism and a shooting assembly, wherein a water flow channel is formed in the water flow box, a water inlet and a water outlet are formed in two ends of the water flow channel, a water inlet of the water flow box is communicated with a pipeline, an electromagnetic valve is arranged on the pipeline, a test paper channel is formed in the water flow box and is communicated with the water flow channel, an outer side plate of the test paper channel is a transparent glass plate, the conveying test paper mechanism drives test paper to pass through the test paper channel, when the test paper passes through the test paper channel, the test paper is soaked by waste water in the water flow channel, the shooting assembly shoots the test paper through the outer side plate of the test paper channel, the waste water in the test paper channel is soaked by a through soaking port, the test paper after reaction is shot by a camera and is uploaded to a computer for comparison and analysis, the water quality condition is judged, the whole process realizes automatic detection, the detection efficiency is higher, and the remote control is safer.

Description

Water quality acquisition and detection equipment

Technical Field

The invention relates to the technical field of water quality detection, in particular to water quality acquisition and detection equipment.

Background

At present, when the water quality of a boiler is detected, the water quality is detected and compared by test paper manually on site, information such as PH value, alkalinity and hardness in wastewater is collected, and then a manual valve is opened according to conditions and the wastewater is discharged. The mode not only increases personnel cost, and efficiency is also very low, and equipment fault rate is high, has personnel's potential safety hazard when opening the valve manually.

Disclosure of Invention

The applicant aims at the defects in the prior art and provides the water quality acquisition and detection equipment which is high in detection efficiency, can be remotely controlled and is safe.

The technical scheme adopted by the invention is as follows: the utility model provides a quality of water gathers check out test set, includes the rivers box, carries test paper mechanism and shoots the subassembly, the inside rivers passageway that forms of rivers box, the both ends of rivers passageway are equipped with water inlet and delivery port, the water inlet intercommunication pipeline of rivers box and set up the solenoid valve on the pipeline, be equipped with the test paper passageway in the rivers box, test paper passageway and rivers passageway intercommunication, the outer panel of test paper passageway contains the clear glass board, carry test paper mechanism to drive the test paper and pass in the test paper passageway, and the waste water in the rivers passageway soaks the test paper when the test paper passes in the test paper passageway, shoot the subassembly and see through the clear glass board of test paper passageway and shoot the test paper, carry test paper mechanism and shoot the subassembly and install in main part box one, pipeline and solenoid valve are arranged in the mounting box, rivers box, main part box one and mounting box paste to lean on fixedly together.

As a further improvement of the technical scheme:

the test paper conveying mechanism comprises a spring, a paper pressing plate, a first gear, a second gear, a first motor and a second motor, wherein the first square box and the second square box are spliced into an angular box body, a through hole is formed in the splicing position of the first square box and the second square box so that the first square box and the second square box are communicated, the first motor drives the first gear to rotate and the second square box are installed in the second square box, the second motor drives the second gear to rotate and the two square box are installed in the second square box, the spring and the paper pressing plate are arranged in the first square box, two ends of the spring respectively abut against the side wall of one end of the paper pressing plate and the side wall of the first square box, test paper is clamped on the side wall of the splicing position of the other end of the paper pressing plate and the side wall of the other end of the first square box, the edge of the first gear penetrates through the first through hole and abuts against test paper in the first square box, a strip seam for the test paper to penetrate through is formed in the side wall of the first square box when the first gear rotates, and the test paper in the first square box penetrates through hole and the second gear and the test paper passes through seam and then moves out of the test paper in the test paper channel, and drives the test paper channel.

The shooting component comprises a shooting small plate and a mounting frame, the shooting small plate is installed in a second square box through the mounting frame, a light supplementing lamp and a camera are integrated on the shooting small plate, a dodging opening is formed in the side wall of the second square box between the transparent glass plate and the shooting small plate, and the camera shoots the test paper through the dodging opening and the transparent glass plate.

The mounting bracket includes the fixed plate of U type, the stock screw, guide bar and mounting panel, the mounting panel is installed on the lateral wall of square box two, be equipped with the projection on the interior side plate of mounting panel, the counter sink is seted up to the outside face of mounting panel, the counter sink extends to the inside and runs through the projection of projection, the stock screw is inserted in the counter sink, the fixed plate is enclosed to close by two side boards one and intermediate lamella two and forms the U type, the screw thread tip of stock screw is inserted and is constituted threaded connection at the middle part of intermediate lamella two, it installs perpendicularly between two side boards one to shoot the platelet, the one end vertical fixation of guide bar is on the mounting panel, the other end of guide bar freely passes in three from the through-hole of seting up in intermediate lamella two, the guide bar is two and parallel arrangement is in the both sides of stock screw.

The water flow box is attached to and fixed at an inner angle of the first main body box, the water flow box comprises an angular main body box II and a strip-shaped additional box, the additional box is attached to and fixed on one of outer side plate faces at two corners of the main body box, the length direction of the additional box is consistent with that of one of outer side plate faces at two corners of the main body box, the additional box is internally formed with the test paper channel, a transparent glass plate is embedded in the outer side plate face of the additional box, the inner side plate face of the additional box is communicated with the main body box through a wetted opening, two ends of the additional box are respectively opened to allow test paper to pass through, and the water flow channel is formed inside the main body box II.

The first gears are a plurality of multi-gear structures, and the number of the first through holes, the paper pressing plates, the springs and the test paper is the same as that of the first gears.

The inner part of the square box I is divided into a plurality of chambers through a plurality of partition plates, and all the springs are distributed in different chambers.

The invention has the following beneficial effects: waste water in this application sees through the test paper that soaks the opening in with the test paper passageway and soaks, utilizes the camera to shoot the test paper after the reaction and upload to the computer and carry out contrastive analysis, judges the quality of water condition, drives two rotations of gear through two motors after the detection and shifts out the test paper from the test paper passageway, and whole process realizes automatic detection, and detection efficiency is higher, but remote control, comparatively safety.

Drawings

FIG. 1 is a block diagram of the present invention.

Fig. 2 is a partial structural view of fig. 1.

Fig. 3 is a structural view of another angle state of fig. 2.

Fig. 4 is a partial structural view of fig. 2.

Fig. 5 is a structural view of the water flow box.

Fig. 6 is a structural view of the photographing assembly.

Wherein: 10. a flow box; 11. a second main box; 12. an additional box;

20. test paper;

30. a first main box; 31. a first square box; 32. a second square box;

41. a spring; 42. pressing a paper plate; 43. a first gear; 44. a second gear;

51. shooting a small plate; 52. a fixing plate; 53. a long rod screw; 54. a guide bar; 55. mounting a plate; 56. a convex column;

60. an electromagnetic valve; 70. mounting a box;

80. a transparent glass plate.

Detailed Description

The following description of the embodiments of the present invention refers to the accompanying drawings.

As shown in fig. 1 to 6, the water quality collecting and detecting apparatus of this embodiment includes a water flow box 10, a conveying test paper mechanism and a shooting assembly, wherein a water flow channel is formed inside the water flow box 10, a water inlet and a water outlet are provided at two ends of the water flow channel, a solenoid valve 60 is provided on the water inlet of the water flow box 10 and the water pipe, a test paper channel is provided in the water flow box 10 and is communicated with the water flow channel, an outer side plate of the test paper channel includes a transparent glass plate 80, the conveying test paper mechanism drives the test paper 20 to pass through the test paper channel, and the test paper 20 is soaked by the wastewater in the water flow channel when the test paper 20 passes through the test paper channel, the shooting assembly shoots the test paper 20 through the transparent glass plate 80 of the test paper channel, the conveying test paper mechanism and the shooting assembly are installed in a main body box one 30, the pipe and the solenoid valve 60 are disposed in a mounting box 70, and the water flow box 10, the main body box one 30 and the mounting box 70 are attached together.

The first main box 30 comprises a first square box 31 and a second square box 32, the first square box 31 and the second square box 32 are spliced into an angular box body, a through hole I is formed in the splicing position of the first square box 31 and the second square box 32 to enable the first square box 31 and the second square box 32 to be communicated, the conveying test paper mechanism comprises a spring 41, a paper pressing plate 42, a first gear 43, a second gear 44, a first motor and a second motor, the first motor drives the first gear 43 to rotate and the second gear to be installed in the second square box 32, the second motor drives the second gear 44 to rotate and the second gear to be installed in the second square box 32, the spring 41 and the paper pressing plate 42 are arranged in the first square box 31, two ends of the spring 41 respectively abut against the paper pressing plate 42 and one end side wall of the first square box 31, the test paper 20 is clamped on the side wall of the splicing position of the paper pressing plate 42 and the other end of the square box I31, the edge of the gear I43 penetrates through the through hole I and abuts against the test paper 20 in the square box I31, a strip slit for the test paper 20 to penetrate out is formed in the side wall of the square box I31, the gear I43 drives the test paper 20 in the square box I31 to penetrate out to the test paper channel through the strip slit when rotating, the side wall of the square box II 32 is communicated with the test paper channel through the through hole II, the edge of the gear II 44 penetrates through the through hole II and abuts against the test paper 20 in the test paper channel, and the gear II 44 drives the test paper 20 in the test paper channel to move out when rotating.

Shoot the subassembly including shooting platelet 51 and mounting bracket, shoot platelet 51 and pass through the mounting bracket and install in two 32 of square box, integrated light filling lamp and camera on shooting platelet 51, be located the clear glass board 80 and shoot and offer on the lateral wall of two 32 of square box between platelet 51 and dodge the mouth, the camera sees through dodging mouth and clear glass board 80 and shoots test paper 20.

The mounting bracket includes the fixed plate 52 of U type, stock screw 53, guide bar 54 and mounting panel 55, mounting panel 55 is installed on the lateral wall of two square boxes 32, be equipped with projection 56 on the inside plate face of mounting panel 55, the counter bore is seted up to the outside face of mounting panel 55, the counter bore extends to inside and run through projection 56 of projection 56, stock screw 53 assigns in the counter bore, fixed plate 52 closes the U type that forms by two side plates one and intermediate lamella two, the screw thread tip of stock screw 53 assigns in the middle part of intermediate lamella two and constitutes threaded connection, it installs perpendicularly between two side plates to shoot platelet 51, the one end vertical fixation of guide bar 54 is on mounting panel 55, the other end of guide bar 54 freely passes in three through-holes of seting up in the intermediate lamella two, guide bar 54 is two and parallel arrangement in the both sides of stock screw 53.

The water flow box 10 is attached to and fixed at an inner angle of the first main box 30, the water flow box 10 comprises an angular main box two 11 and a strip-shaped additional box 12, the additional box 12 is attached to and fixed on one of outer side plate surfaces at the corners of the main box two 11, the length direction of the additional box 12 is consistent with that of one of the outer side plate surfaces at the corners of the main box two 11, a test paper channel is formed inside the additional box 12, a transparent glass plate 80 is embedded in the outer side plate surface of the additional box 12, the inner side plate surface of the additional box 12 is communicated with the main box two 11 through a soaking opening, two ends of the additional box 12 are respectively opened to allow test paper 20 to pass through, a water flow channel is formed inside the main box two 11, and the direction of an arrow in fig. 5 is the direction of water flow. The second main box 11 and the additional box 12 are integrally formed.

The first gear 43 is a plurality of gears which form a multi-gear, and the number of the first through holes, the first paper pressing plate 42, the springs 41 and the test paper 20 is the same as that of the first gear 43.

The first square box 31 is internally divided into a plurality of chambers by a plurality of partition plates, and all the springs 41 are distributed in different chambers.

When the device works, a water inlet at one end of the water flow box 10 is communicated with waste water through a pipeline, a water outlet at the other end of the water flow box is connected with other pipelines, firstly, the long rod screw 53 is screwed to drive the fixing plate 52 to move along the length direction of the long rod screw 53 so as to adjust the position of a camera close to or far away from test paper in a test paper channel, the focal length of the camera is adjusted, then the electromagnetic valve 60 is controlled to be opened, the waste water flows through the main body box one 30 of the water flow box 10 through the pipeline, the waste water washes the main body box one 30, and the electromagnetic valve 60 is closed; the utility model provides a starter motor I, a motor drive gear 43 rotates, during the test paper that drives in the square box 31 when gear 43 pivoted got into the test paper passageway, open solenoid valve 60, waste water flows to main part box 30 once more, waste water sees through soaking test paper 20 in the opening with the test paper passageway and soaks, close solenoid valve 60, open light filling lamp and camera, the camera is taken a picture and is uploaded to the computer and carry out contrastive analysis to test paper 20 after the reaction, judge the quality of water condition, it rotates to shift out test paper 20 from the test paper passageway to drive two gears through motor two after the detection, whole process realizes automated inspection, detection efficiency is higher, but remote control, and is relatively safe.

This application can adopt a plurality of test paper to detect according to actual need, hardness, basicity or the pH value etc. of different test paper detectable waste water.

The above description is intended to be illustrative, and not restrictive, the scope of the invention being indicated by the claims, and all changes that come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims

1. A water quality acquisition and detection device is characterized in that: the test paper taking device comprises a water flow box (10), a conveying test paper mechanism and a shooting assembly, wherein a water flow channel is formed inside the water flow box (10), a water inlet and a water outlet are formed in two ends of the water flow channel, the water inlet of the water flow box (10) is communicated with a pipeline, an electromagnetic valve (60) is arranged on the pipeline, a test paper channel is arranged in the water flow box (10), the test paper channel is communicated with the water flow channel, an outer side plate of the test paper channel comprises a transparent glass plate (80), the conveying test paper mechanism drives a test paper (20) to penetrate through the test paper channel, the test paper (20) is soaked by waste water in the water flow channel when the test paper (20) penetrates through the test paper channel, the shooting assembly shoots the test paper (20) through the transparent glass plate (80) of the test paper channel, the conveying test paper mechanism and the shooting assembly are installed in a main body box I (30), the pipeline and the electromagnetic valve (60) are arranged in an installation box (70), and the water flow box (10), the main body box I (30) and the installation box (70) are attached and fixed together;

the first main box (30) comprises a first square box (31) and a second square box (32), the first square box (31) and the second square box (32) are spliced into an angular box body, a through hole is formed in the splicing position of the first square box (31) and the second square box (32) to enable the first square box (31) and the second square box (32) to be communicated, the conveying test paper mechanism comprises a spring (41), a paper pressing plate (42), a first gear (43), a second gear (44), a first motor and a second motor, the first motor drives the first gear (43) to rotate and the first gear and the second gear to be installed in the second square box (32), the second motor drives the second gear (44) to rotate and the second gear to be installed in the second square box (32), and the spring (41) and the paper pressing plate (42) are arranged in the first square box (31), two ends of a spring (41) are respectively abutted against the side wall of one end of a paper pressing plate (42) and the side wall of one end of a square box (31), the test paper (20) is clamped on the side wall of the splicing position of the other end of the paper pressing plate (42) and the other end of the square box (31), the edge of a gear I (43) penetrates through a through hole I and is abutted against the test paper (20) in the square box I (31), a strip seam for the test paper (20) to penetrate out is formed in the side wall of the square box I (31), the gear I (43) drives the test paper (20) in the square box I (31) to penetrate out into a test paper channel from the strip seam when rotating, and the side wall of the square box II (32) is communicated with the test paper channel through a through hole II, the edge of the second gear (44) penetrates through the second through hole and abuts against the test paper (20) in the test paper channel, and the second gear (44) drives the test paper (20) in the test paper channel to move out when rotating.

2. The water quality collecting and detecting apparatus as set forth in claim 1, wherein: shoot the subassembly including shooting platelet (51) and mounting bracket, shoot platelet (51) and install in square box two (32) through the mounting bracket, shot platelet (51) and gone up integrated light filling lamp and camera, be located clear glass board (80) and shoot the lateral wall of square box two (32) between platelet (51) and set up and dodge the mouth, the camera sees through dodging mouth and clear glass board (80) and shoots test paper (20).

3. The water quality collecting and detecting apparatus as set forth in claim 2, wherein: the mounting bracket comprises a U-shaped fixing plate (52), long rod screws (53), guide rods (54) and a mounting plate (55), the mounting plate (55) is installed on the side wall of a second square box (32), a convex column (56) is arranged on the inner side plate surface of the mounting plate (55), a countersunk hole is formed in the outer side plate surface of the mounting plate (55), the countersunk hole extends into the convex column (56) and penetrates through the convex column (56), the long rod screws (53) are inserted into the countersunk hole, the fixing plate (52) is enclosed by a first two side plates and a second middle plate to form a U-shaped structure, the thread end of each long rod screw (53) is inserted into the middle of the second middle plate to form threaded connection, small shooting plates (51) are vertically installed between the first two side plates, one end of each guide rod (54) is vertically fixed on the mounting plate (55), the other end of each guide rod (54) freely penetrates through a third through hole formed in the second middle plate, and the guide rods (54) are arranged on two sides of the long rod screws (53) in parallel.

4. The water quality collecting and detecting apparatus according to claim 3, characterized in that: the test paper box is characterized in that the water flow box (10) is attached to and fixed at an inner angle of the main box I (30), the water flow box (10) comprises an angular main box II (11) and a strip-shaped additional box (12), the additional box (12) is attached to and fixed on one of outer side plate surfaces at the corners of the main box II (11), the length direction of the additional box (12) is consistent with that of one of outer side plate surfaces at the corners of the main box II (11), the test paper channel is formed inside the additional box (12), a transparent glass plate (80) is embedded in the outer side plate surface of the additional box (12), the inner side plate surface of the additional box (12) is communicated with the main box II (11) through a wetting opening, openings are formed in two ends of the additional box (12) respectively for the test paper (20) to pass through, and a water flow channel is formed inside the main box II (11).

5. The water quality collecting and detecting apparatus according to claim 4, wherein: the first gears (43) are a plurality of multi-gear structures, and the number of the first through holes, the paper pressing plate (42), the springs (41) and the test paper (20) is the same as that of the first gears (43).

6. The water quality collecting and detecting apparatus according to claim 5, wherein: the interior of the square box I (31) is divided into a plurality of chambers through a plurality of partition plates, and all the springs (41) are distributed in different chambers.