CN220912751U - Shunt device for water quality detection - Google Patents

Abstract

The utility model discloses a flow dividing device for water quality detection, which relates to the technical field of water quality detection and comprises a flow homogenizing chamber, wherein a stepping motor is arranged on the left side of the upper surface of the flow homogenizing chamber, the output end of the stepping motor penetrates through the upper surface of the flow homogenizing chamber and extends into the flow homogenizing chamber, first belt pulleys are rotatably arranged in the front and rear directions of the left side above the inner wall of the flow homogenizing chamber, two first belt pulleys are rotatably arranged through a first belt, and a second belt pulley is arranged on the lower surface of a first belt pulley on the rear side. According to the utility model, the plurality of belt pulleys can be driven to rotate by the stepping motor, so that the two groups of first worms and second worms drive the corresponding first worm wheel and second worm wheel to rotate, and finally the rolling barrel in the uniform mechanism drives the stirring sheet to rotate, so that the water in the uniform chamber is stirred, each part of water which is split is ensured to keep the same component, and the accuracy of subsequent water quality detection is ensured.

Description

Shunt device for water quality detection

Technical Field

The utility model relates to the technical field of water quality detection, in particular to a flow dividing device for water quality detection.

Background

The water is a life source, people cannot leave water in life and production activities, the quality of drinking water is closely related to the health of people, the drinking water drunk daily is obtained through screening and filtering layer by layer, the water quality is usually detected before filtering, whether the water can be used or not is detected, and because the detecting process is more than one, a diversion device is usually required to divide the water to be detected into a plurality of parts for detection.

In the prior art, when water to be detected is split by using the splitting device, because the components of impurities contained in the water to be detected cannot be determined, each split water should be in the same state, if the quantities and components of the impurities contained in each split water are different, the accuracy of the water quality detection can be affected, and therefore, the splitting device for water quality detection is required to meet the demands of people.

Disclosure of utility model

The utility model aims to provide a water quality detection diversion device, which solves the problem that when the water to be detected is diverted by using the diversion device, the components of impurities in the water to be detected cannot be determined, so that each diverted water is required to be in the same state, and if the quantities and the components of the impurities in each water are different, the accuracy of the water quality detection is affected finally.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a diverging device that water quality testing used, includes the uniform flow room, step motor is installed in the left side of uniform flow room upper surface, step motor's output runs through the upper surface of uniform flow room and extends to its inside, the first belt pulley is installed in the equal rotation in the left place around the uniform flow room inner wall top, two first belt pulley rotates through first belt and installs, the rear side the lower surface mounting of first belt pulley has the second belt pulley, two second belt pulley rotates through first transmission shaft and installs the second belt pulley, and two second belt pulleys rotate through the second belt and connect, the right side the lower surface mounting of second belt pulley has the third belt pulley, the front side of uniform flow room inner wall top rotates through the second transmission shaft and installs the third belt pulley, two the third belt pulley rotates through the third belt and connects, be provided with uniform mechanism in the room, the right side of uniform flow room is provided with diverging mechanism.

Preferably, the uniformity mechanism comprises a plurality of first worms, the upper ends of the first worms are fixed with the lower surfaces of the corresponding first belt pulleys, the upper ends of the first worms are fixed with the lower surfaces of the corresponding third belt pulleys, the left side and the right side of the inner wall of the uniformity chamber are respectively provided with a first worm wheel and a second worm wheel through rotation of a first rotating shaft and a second rotating shaft, one side surface of the second worm wheel is respectively connected with one side of the corresponding second worm rod wall in a meshed manner, a plurality of rolling cylinders are respectively arranged on one side surface of the second worm wheel, and a plurality of stirring sheets are respectively arranged on the outer walls of the rolling cylinders.

Preferably, the shunt mechanism comprises a mounting plate, the left side surface of mounting plate and the right side fixed surface of uniform flow chamber, the last surface mounting of mounting plate has the reposition of redundant personnel box, a plurality of baffles are installed to the inner wall of reposition of redundant personnel box, and a plurality of the first installation tube of being installed jointly to the inner wall of baffle, two the left end of first installation tube all runs through the left side of reposition of redundant personnel box inner wall and extends to its outside, two the second installation tube is all installed to the left end of first installation tube, two the left end of uniform flow chamber is provided with the suction pump jointly, the suction pump input runs through the left side surface of uniform flow chamber and extends to its inside, the output of suction pump is fixed with the left end of two second installation tubes, and a plurality of shunt tubes are installed to the below of first installation tube wall, and a plurality of the lower extreme of shunt tubes all runs through the below of reposition of redundant personnel box inner wall and extends to the below of mounting plate, and a plurality of electromagnetic valves are all installed to one side of shunt tube wall.

Preferably, a feeding pipe is installed on the left side surface of the uniform flow chamber, a feeding box is installed on the upper surface of the feeding pipe, and the right end of the feeding pipe penetrates through the left side surface of the uniform flow chamber and extends into the uniform flow chamber.

Preferably, supporting legs are arranged at four corners of the lower surface of the flow equalizing chamber.

Preferably, the front side surface of the uniform flow chamber is provided with a sealing door, and a door handle is mounted on the right side of the front side surface of the sealing door.

Preferably, the flow equalizing chamber is made of stainless steel materials.

The beneficial effects of the utility model are as follows:

According to the utility model, through the arrangement of the flow equalizing chamber, the stepping motor, the first belt pulley, the first transmission shaft, the second belt pulley, the third belt pulley, the uniform mechanism, the second belt pulley and the flow dividing mechanism, the stepping motor drives the plurality of belt pulleys to rotate, so that the two groups of first worms and second worms drive the corresponding first worm wheel and second worm wheel to rotate, and finally the rolling barrel in the uniform mechanism drives the stirring plate to rotate, so that the water in the flow equalizing chamber is stirred, each part of water which is split out is ensured to keep the same component, and the accuracy of subsequent water quality detection is ensured.

According to the utility model, through the arrangement of the flow dividing mechanism, the water in the flow equalizing chamber can be uniformly divided into six parts, each part keeps the same components, and the water quality measurement can be performed through a plurality of procedures, so that the reliability and the practicability of the equipment are improved.

Drawings

FIG. 1 is a schematic perspective view of a diverter device for water quality testing according to the present utility model;

FIG. 2 is an enlarged schematic view of the flow dividing device for water quality detection in FIG. 1;

FIG. 3 is a schematic diagram of the sectional structure of the inside of a diverter box of a diverter device for water quality testing according to the present utility model;

Fig. 4 is a schematic front view of the internal structure of the flow homogenizing chamber of the flow dividing device for water quality detection.

Fig. 5 is a schematic side view of the flow homogenizing chamber of the flow dividing device for water quality detection.

In the figure: 1. a flow equalizing chamber; 2. a stepping motor; 3. a first pulley; 4. a first belt; 5. a first worm; 6. a first worm wheel; 7. a second pulley; 8. a first drive shaft; 9. a second belt; 10. a third pulley; 11. a third belt; 12. a second drive shaft; 13. a second worm; 14. a second worm wheel; 15. a mounting plate; 16. a shunt box; 17. a partition plate; 18. a first mounting tube; 19. a second mounting tube; 20. a water pump; 21. a shunt; 22. an electromagnetic valve; 23. sealing the door; 24. a door handle; 25. a feed pipe; 26. feeding boxes; 27. support legs; 28. a rolling cylinder; 29. stirring plate.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1-5, a water quality testing's diverging device, including the chamber 1 that unifies, the step motor 2 is installed in the left side of chamber 1 upper surface that uniforms, step motor 2's output runs through chamber 1's upper surface and extends to its inside, chamber 1 inner wall top left side that uniforms all rotates and installs first belt pulley 3, two first belt pulleys 3 are installed through first belt pulley 4 rotation, the lower surface mounting of rear side first belt pulley 3 has second belt pulley 7, the rear side of chamber 1 inner wall top through first transmission shaft 8 rotation installs second belt pulley 7, two second belt pulleys 7 pass through second belt 9 rotation connection, the lower surface mounting of right side second belt pulley 7 has third belt pulley 10, chamber 1 inner wall top's front side through second transmission shaft 12 rotation installs third belt pulley 10, two third belt pulleys 10 pass through third belt 11 rotation connection, be provided with evenly mechanism in the chamber 1 that uniforms, chamber 1's right side is provided with diverging mechanism, can drive a plurality of belt pulleys through step motor 2 rotation, and then make worm wheel 5 and second worm wheel 5 drive evenly and evenly run out the inside the water quality testing piece that evenly, the first mixing drum 29 has guaranteed that the inside of water quality testing is guaranteed to the first mixing drum 14 is even, and the inside the mixing drum is guaranteed to the mixing drum is rotated to the inside each time, the mixing drum is guaranteed to the mixing drum is rotated and the inside the mixing drum is guaranteed, the mixing drum is guaranteed and is rotated and is guaranteed.

As shown in fig. 1, the left side surface mounting of chamber that flow equalizes 1 has inlet pipe 25, the upper surface mounting of inlet pipe 25 has pan feeding box 26, the right-hand member of inlet pipe 25 runs through the left side surface of chamber that flow equalizes 1 and extends to its inside, be convenient for let in the water that needs to carry out quality testing into chamber that flow equalizes 1 inside, the four corners department of chamber 1 lower surface all installs supporting leg 27, can make the bottom of equipment, stability when guaranteeing equipment use, the front side surface of chamber that flow equalizes 1 is provided with sealing door 23, door handle 24 is installed on the right side of sealing door 23 front side surface, be convenient for open equipment through door handle 24, inspect the inside of equipment, chamber that flow equalizes 1 adopts stainless steel material to make, wear resistance and corrosion resistance of chamber that has improved chamber that flow equalizes 1, and then improved sealing effect and life of chamber that flow equalizes 1.

As shown in fig. 3, the flow dividing mechanism comprises a mounting plate 15, the left side surface of the mounting plate 15 is fixed with the right side surface of the flow homogenizing chamber 1, a flow dividing box 16 is mounted on the upper surface of the mounting plate 15, a plurality of partition plates 17 are mounted on the inner wall of the flow dividing box 16, two first mounting pipes 18 are mounted on the inner wall of the flow dividing box 17 together, the left ends of the two first mounting pipes 18 penetrate through the left side of the inner wall of the flow dividing box 16 and extend to the outside of the inner wall, a second mounting pipe 19 is mounted on the left ends of the two first mounting pipes 18, a water suction pump 20 is mounted on the left ends of the two flow homogenizing chambers 1 together, the input ends of the water suction pump 20 penetrate through the left side surface of the flow homogenizing chamber 1 and extend to the inside of the flow homogenizing chamber, a plurality of distribution pipes 21 are mounted on the lower sides of the pipe walls of the two second mounting pipes 19, a plurality of distribution pipes 21 are mounted on the lower sides of the pipe walls of the two first mounting pipes 18, a plurality of distribution pipes 21 penetrate through the lower sides of the inner walls of the flow dividing box 16 and extend to the lower sides of the mounting plate 15, a plurality of electromagnetic valves 22 are mounted on one side of the pipe walls of the side of the plurality of the distribution pipes 21, the first distribution pipes 1 can be uniformly divided into six pieces of water uniformly and uniformly distributed through the first mounting pipes 18, the first mounting pipes 18 can be mounted on the inner walls and can be uniformly and uniformly distributed to the two first mounting pipes 18, and can be mounted on the same, and can be used for measuring the water quality and can be stably and well be mounted on the first and 18.

The working principle of the utility model is as follows: when the device is used, water flow needing to be subjected to split water quality detection is introduced into the flow equalizing chamber 1 through the feed pipe 25 and the feed box 26, the stepping motor 2 is turned on, the output end of the stepping motor 2 drives the two first belt pulleys 3 to rotate through the first belt 4, the first belt pulley 3 at the rear side drives the second belt pulley 7 at the lower part to rotate, the second belt pulley 7 at the other side is driven by the second belt 9 to rotate, the second belt pulley 7 at the right side drives the third belt pulley 10 at the lower part to rotate, the third belt pulley 10 at the front side is driven by the second transmission shaft 12 and the third belt 11 to rotate, finally, the two first worms 5 and the two second worms 13 are enabled to rotate, the plurality of second worm gears 14 are enabled to rotate through the two groups of first rotating shafts and the second rotating shafts, and the plurality of rolling cylinders 28 and the stirring pieces 29 on the surface are enabled to stir water in the flow equalizing chamber 1;

And then make the impurity in the inside water of chamber 1 that flow equalizes evenly dispersed, guarantee that every water that shunts away all keeps the same composition, turn on suction pump 20 again, suction pump 20's input will flow in chamber 1 water draw into two sets of second mounting tubes 19, again through corresponding a set of second mounting tube 19 with water draw into two first mounting tubes 18, can open the electromagnetic valve 22 of a plurality of shunt tubes 21 one side this moment, and then shunt away through the many shunt tubes 21 below two first mounting tubes 18.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (7)

1. The utility model provides a diverging device that water quality testing used, includes homoflow room (1), its characterized in that: the utility model discloses a current sharing mechanism, including current sharing room (1), including first belt (4) and second belt (7), step motor (2) are installed in the left side of current sharing room (1) upper surface, the output of step motor (2) runs through the upper surface of current sharing room (1) and extends to its inside, first belt pulley (3) are all rotated in the left front and back of current sharing room (1) inner wall top, two first belt pulley (3) are installed through first belt (4) rotation, the rear side second belt pulley (7) are installed to the lower surface of first belt pulley (3), second belt pulley (7) are installed through first transmission shaft (8) rotation to the rear side of current sharing room (1) inner wall top, two second belt pulley (7) are connected through second belt (9) rotation, the right side second belt pulley (7) lower surface mounting has third belt pulley (10), the front side of current sharing room (1) inner wall top is installed through second transmission shaft (12) rotation third belt pulley (10), two third belt pulley (10) are connected through third belt (11) rotation, current sharing mechanism (1) is provided with in the current sharing room (1).

2. The water quality testing diverter according to claim 1, wherein: the even mechanism includes a plurality of first worms (5), a set of left side the upper end of first worm (5) and the lower fixed surface who corresponds first belt pulley (3), a set of right side the upper end of first worm (5) and the lower fixed surface who corresponds third belt pulley (10), flow equalizing chamber (1) the left and right sides of inner wall is installed first worm wheel (6) and second worm wheel (14) through first pivot and second pivot rotation respectively, a plurality of one side surface of second worm wheel (14) is connected with the one side meshing of corresponding second worm (13) pole wall respectively, a plurality of rolling tube (28) are all installed to one side surface of second worm wheel (14), a plurality of stirring piece (29) are all installed to the outer wall of rolling tube (28).

3. The water quality testing diverter according to claim 1, wherein: the utility model provides a shunt mechanism, including mounting panel (15), the left side surface of mounting panel (15) and the right side fixed surface of flow equalizing chamber (1), the last surface mounting of mounting panel (15) has shunt box (16), a plurality of baffles (17) are installed to the inner wall of shunt box (16), and a plurality of the inner wall of baffle (17) is installed jointly two first install tube (18), two the left end of first install tube (18) all runs through the left side of shunt box (16) inner wall and extends to its outside, two second install tube (19) are all installed to the left end of first install tube (18), two the left end of flow equalizing chamber (1) is provided with suction pump (20) jointly, the left side surface of suction pump (20) input end runs through flow equalizing chamber (1) and extends to its inside, the output of suction pump (20) is fixed with the left end of two second install tube (19) jointly, two the below of first install tube (18) wall is all installed a plurality of tubes (21) and is installed a plurality of shunt tube (21) below shunt tube (21) and is all extended to shunt tube (21) below shunt tube (21) all one side of tube (15) all install shunt tube (21).

4. The water quality testing diverter according to claim 1, wherein: the left side surface mounting of flow equalizing chamber (1) has inlet pipe (25), the upper surface mounting of inlet pipe (25) has pan feeding box (26), the right-hand member of inlet pipe (25) runs through the left side surface of flow equalizing chamber (1) and extends to its inside.

5. The water quality testing diverter according to claim 1, wherein: support legs (27) are arranged at four corners of the lower surface of the flow equalizing chamber (1).

6. The water quality testing diverter according to claim 1, wherein: the front side surface of the flow equalizing chamber (1) is provided with a sealing door (23), and a door handle (24) is arranged on the right side of the front side surface of the sealing door (23).

7. The water quality testing diverter according to claim 1, wherein: the flow equalizing chamber (1) is made of stainless steel materials.