CN212748390U - Water intake device for water quality monitoring - Google Patents
Water intake device for water quality monitoring Download PDFInfo
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- CN212748390U CN212748390U CN202021222161.2U CN202021222161U CN212748390U CN 212748390 U CN212748390 U CN 212748390U CN 202021222161 U CN202021222161 U CN 202021222161U CN 212748390 U CN212748390 U CN 212748390U
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Abstract
The utility model relates to a water intake device for water quality monitoring, which comprises a connecting block, a positioning part for stabilizing the position of the connecting block, a buoyancy piece connected with the connecting block, and a submersible pump connected with the buoyancy piece through a connecting rope; the positioning part comprises a balancing weight connected with the connecting block through a rope, a fixed rope with one end fixed with the connecting block and the other end fixed on the riverbed, and a balance rope matched with the fixed rope and the balancing weight to stabilize the connecting block; balancing weight and immersible pump are unsettled in the aquatic, and fixed rope sets up with the riverbed slope, and balanced rope one end extends to the bank with the leg joint other end. The utility model discloses have the effect that improves water intaking device stability.
Description
Technical Field
The utility model belongs to the technical field of the technique of water intaking device and specifically relates to a water intaking device for water quality monitoring is related to.
Background
The water quality monitoring is a process for monitoring and measuring the types of pollutants in water bodies, the concentrations and the variation trends of various pollutants and evaluating the water quality conditions, and has a wide monitoring range, including uncontaminated and contaminated natural water (rivers, lakes, seas and underground water), various industrial drainage or reservoirs and the like. Generally, water is taken to a monitoring room, and various indexes of the water quality are detected at intervals.
In the prior art, the following two methods are generally adopted for water taking. The floating platform type: placing a foam floating platform on the water surface, wherein a water pump is arranged on the floating platform and is connected with a water pipe and an electric wire; standing strips: the submersible pump is directly placed in water and connected with the floating ball and the electric wire and the water pipe.
The above prior art solutions have the following drawbacks: when detecting the environment with large water level difference, such as lakes and reservoirs, a water pipe and an electric wire of the floating platform type water taking device are pulled under the influence of wind power and water level change, so that the water pipe and the electric wire are damaged; standing bar type water intaking device, the immersible pump sets up in the aquatic, and the fluctuation of the water that external environment caused can lead to the aversion of immersible pump, when being washed to the shallower department of water level, and the water intaking just can't normally go on. In conclusion, the stability is poor in the existing two water taking schemes.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing a water intake device for water quality monitoring that stability is good to prior art exists not enough.
The above technical purpose of the present invention can be achieved by the following technical solutions:
a water taking device for water quality monitoring comprises a connecting block, a positioning part for stabilizing the position of the connecting block, a buoyancy piece connected with the connecting block, and a submersible pump connected with the buoyancy piece through a connecting rope; the positioning part comprises a balancing weight connected with the connecting block through a rope, a fixed rope with one end fixed with the connecting block and the other end fixed on the riverbed, and a balance rope matched with the fixed rope and the balancing weight to stabilize the connecting block; balancing weight and immersible pump are unsettled in the aquatic, and fixed rope sets up with the riverbed slope, and balanced rope one end extends to the bank with the leg joint other end.
By adopting the technical scheme, under the action of the balancing weight, the balancing rope and the fixing rope, the connecting block is subjected to balancing acting force, so that the position of the connecting block can be stabilized; simultaneously be connected floater and connecting block, buoyancy spare provides buoyancy for the connecting block, and the immersible pump is connected with buoyancy spare for the stable degree of depth that the immersible pump is located the aquatic carries out the water intaking, and the immersible pump is connected the water pipe and is carried water to detecting station. Compare the effect of single floating platform among the prior art to and directly arrange the scheme in aquatic with the immersible pump, the three power of balancing weight, fixed rope and balanced rope can be stabilized in a little and movable range is very little with the connecting block, has improved water intaking device's stability greatly, and this company is when using, has experienced the twelve grades of typhoons of strongest, and the device still can be used, does not have the influence.
More preferably: the buoyancy piece, the fixing rope and the balance rope are all fixed with the bracket; the support includes vertical pole and many horizontal poles that evenly are fixed in vertical pole week side, and the connecting block is connected on vertical pole.
By adopting the technical scheme, the support is used as a bearing part, the bearing of the connecting block, the buoyancy part, the fixed rope and the balance rope is realized, the connection on the connecting block is reduced, and the whole device has integrity and observability.
More preferably: the buoyancy pieces are provided with at least two buoyancy pieces and fixed on the horizontal rod; the plurality of buoyancy pieces are uniformly arranged on the periphery of the vertical rod; all be connected with on the buoyancy piece and connect the rope and all be connected with the immersible pump.
By adopting the technical scheme, the buoyancy pieces are uniformly arranged on the periphery of the connecting block, so that the buoyancy uniformity of the periphery of the connecting block is improved, and the overall stability of the water taking device is improved; on the other hand, the buoyancy piece all is connected with the immersible pump and provides the pulling force for the immersible pump, is favorable to the stability of immersible pump degree of depth position.
More preferably: the connecting block is a hand take-up reel.
Adopt above-mentioned technical scheme, to having the great environment of a biquadratic water level change in a year such as reservoir and lake, in case the water level step-down, if the connecting rope length between the connecting block of balancing weight equals or is greater than the water level degree of depth, then the balancing weight can sink on the riverbed, and the connecting block can lose the pulling force of vertical direction this moment, can seriously influence the stability of connecting block. Set up the connecting block into hand take-up reel, when having arrived water level change time point, the staff is manual will connect the rope and shorten, avoids the balancing weight to reach the riverbed, ensures water intake device's stability.
More preferably: and the vertical rod is connected with a water level warning lamp.
Adopt above-mentioned technical scheme, water level warning light can indicate that the ship of coming and going avoids water intaking device, especially in the night, reduces the collision possibility of water intaking device and ship.
More preferably: the buoyancy piece is a floating ball.
By adopting the technical scheme, the buoyancy is provided, and the raw materials are simple and easy to obtain.
More preferably: and a plurality of floating blocks are uniformly connected to the balance rope.
By adopting the technical scheme, the floating block keeps the floating state of the fixed rope, and the worker can conveniently maintain and adjust the bracket along the fixed rope.
More preferably: the connecting rope, the fixing rope and the balance rope are all stainless steel ropes.
By adopting the technical scheme, the stainless steel cable is corrosion-resistant and high in strength, and is suitable for the environment in water.
To sum up, the utility model discloses following beneficial effect has:
1. by arranging the connecting block and the positioning part, the connecting block is subjected to a balancing acting force under the action of the balancing weight, the balancing rope and the fixing rope, so that the position of the connecting block can be stabilized;
2. the support is arranged, so that the bearing of the connecting block, the buoyancy piece, the fixed rope and the balance rope is realized, and the integrity and observability of the whole device are improved;
3. through setting up hand take-up reel, when having arrived water level change time point, the staff is manual will connect the rope and shorten, avoids the balancing weight to reach the riverbed, ensures water intake device's stability.
Drawings
FIG. 1 is a schematic structural view of example 1;
FIG. 2 is a schematic structural view of example 2.
Reference numerals: 1. connecting blocks; 11. manually winding up a reel; 2. a positioning part; 21. a balancing weight; 22. fixing a rope; 23. a balancing rope; 3. a buoyant member; 31. a floating ball; 4. a submersible pump; 5. connecting ropes; 6. a support; 61. a vertical rod; 62. a horizontal bar; 7. a water level warning light; 8. and (4) floating blocks.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings.
Example 1: referring to fig. 1, for the water intaking device for water quality monitoring that this embodiment discloses, including connecting block 1, stabilize the location portion 2 of connecting block 1 position, be connected with connecting block 1 and provide buoyancy for connecting block 1 buoyancy 3 to and connect the immersible pump 4 in buoyancy 3 below through connecting rope 5, need intercommunication water pipe and electric wire during in-service use.
The positioning part 2 comprises a balancing weight 21 connected below the connecting block 1 through a connecting rope 5, a fixing rope 22 connecting the riverbed and the connecting block 1, and a balancing rope 23 matched with the balancing weight 21 and the fixing rope 22 to stabilize the position of the connecting block 1. The counterweight 21 is positioned in water, the lower end of the fixed rope 22 is fixed with an anchor, the anchor is fastened in a riverbed, and the fixed rope 22 is obliquely arranged; the balance rope 23 is located above the horizontal plane and extends and is fixed on the river bank far away from one end of the connecting block 1. Balance rope 23 and fixed rope 22 are located the both sides of balancing weight 21 respectively, and balance rope 23, fixed rope 22 and the rope 5 of being connected with balancing weight 21, the pulling force to connecting block 1 is in same vertical face.
A plurality of floating blocks 8 are evenly connected on the balance rope 23, and the floating blocks 8 float on the water surface.
The buoyancy piece 3 is a floating ball 31, and the connecting rope 5, the fixing rope 22 and the balance rope 23 are all stainless steel ropes.
The implementation principle of the embodiment is as follows: embodiment 1 is suitable for taking water in an environment where the water level does not change much. The tension of the fixed rope 22, the balance rope 23 and the balancing weight 21 acts on the connecting block 1, so that the position of the connecting block 1 is stable; the submersible pump 4 is located about 1m below the water surface, and is provided with a water pipe and an electric wire for taking water.
Example 2: referring to fig. 1, for the water intaking device for water quality monitoring that this embodiment discloses, including support 6, set up connecting block 1 on support 6, stabilize location portion 2 of support 6 position, be connected with connecting block 1 and provide buoyancy for connecting block 1 buoyancy's buoyancy 3 to and connect the immersible pump 4 in buoyancy 3 below through connecting rope 5, need intercommunication water pipe and electric wire during the in-service use.
The bracket 6 comprises two horizontal rods 62 which are positioned on the same straight line, and a vertical rod 61 which is vertically fixed at the connecting end of the two horizontal rods 62. The connecting block 1 is a hand-operated take-up reel 11 and is fixed on the vertical rod 61. The vertical rod 61 is connected with a water level warning lamp 7, so that the position of the water taking device can be conveniently indicated, and ships can be prompted to avoid. The buoyancy members 3 are provided in two, respectively fixed to the two horizontal rods 62 and the distances from the two buoyancy members 3 to the vertical rods 61 are the same. Two 3 below of buoyancy all are fixed with and connect rope 5, and two are connected rope 5 and are connected in the pull ring of 4 upper ends of immersible pump.
The positioning part 2 comprises a balancing weight 21 connected below the connecting block 1 through a connecting rope 5, a fixing rope 22 connecting the riverbed and the support 6, and a balancing rope 23 matched with the balancing weight 21 and the fixing rope 22 to stabilize the position of the connecting block 1. The counterweight block 21 is positioned in water, the lower end of the fixed rope 22 is fixed with an anchor which is fastened in a riverbed, the upper end of the fixed rope is fixed at the joint of the horizontal rod 62 and the vertical rod 61, and the fixed rope 22 is obliquely arranged; the balance rope 23 is located above the horizontal plane, one end of the balance rope 23 is fixed with the connection part of the horizontal rod 62 and the vertical rod 61, and the other end of the balance rope extends and is fixed on the river bank. The balance rope 23 and the fixing rope 22 are respectively located on two opposite sides of the balancing weight 21 and are respectively located on two sides of the two buoyancy members 3. The balance rope 23, the fixed rope 22 and the connecting rope 5 connected with the balancing weight 21, and the pulling force on the connecting block 1 is on the same vertical plane.
A plurality of floating blocks 8 are evenly connected on the balance rope 23, and the floating blocks 8 float on the water surface.
The buoyancy piece 3 is a floating ball 31, and the connecting rope 5, the fixing rope 22 and the balance rope 23 are all stainless steel ropes.
The implementation principle of the embodiment is as follows: embodiment 2 is suitable for taking water in an environment where the water level change is small and large. The tension of the fixed rope 22, the balance rope 23 and the balancing weight 21 acts on the connecting block 1, so that the position of the connecting block 1 is stable; the submersible pump 4 is located about 1m below the water surface, and is provided with a water pipe and an electric wire for taking water. After water taking is finished, an operator moves to the support 6 through the water transport tool, shakes the hand-operated take-up reel 11, shortens the connecting rope 5 connected with the balancing weight 21, and prevents the balancing weight 21 from sinking into a river bed; and after the water level rises, the connecting rope 5 is put down again.
The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.
Claims (8)
1. A water taking device for water quality monitoring is characterized by comprising a connecting block (1), a positioning part (2) for stabilizing the position of the connecting block (1), a buoyancy piece (3) connected with the connecting block (1), and a submersible pump (4) connected with the buoyancy piece (3) through a connecting rope (5); the positioning part (2) comprises a balancing weight (21) connected with the connecting block (1) through a connecting rope (5), a fixing rope (22) with one end fixed with the connecting block (1) and the other end fixed on the riverbed, and a balancing rope (23) matched with the fixing rope (22) and the balancing weight (21) to stabilize the connecting block (1); balancing weight (21) and immersible pump (4) are unsettled in aqueous, and fixed rope (22) set up with the riverbed slope, and balance rope (23) one end is connected the other end with support (6) and extends to the river bank.
2. The water taking device for water quality monitoring according to claim 1, further comprising a bracket (6), wherein the buoyancy member (3), the fixing rope (22) and the balance rope (23) are all fixed with the bracket (6); the support (6) comprises a vertical rod (61) and a plurality of horizontal rods (62) which are uniformly fixed on the peripheral side of the vertical rod (61), and the connecting block (1) is connected to the vertical rod (61).
3. The water intake device for water quality monitoring according to claim 2, wherein the buoyancy member (3) is provided with at least two and fixed on the horizontal rod (62); the plurality of buoyancy pieces (3) are uniformly arranged on the peripheral side of the vertical rod (61); the buoyancy piece (3) is connected with a connecting rope (5) and is connected with the submersible pump (4).
4. The water intake device for water quality monitoring according to claim 2, wherein the connecting block (1) is a hand-operated take-up reel (11).
5. The water intake device for water quality monitoring according to claim 2, wherein the vertical rod (61) is connected with a water level warning lamp (7).
6. The water intake device for water quality monitoring according to claim 1, wherein the buoyancy member (3) is a floating ball (31).
7. The water intake device for water quality monitoring according to claim 1 or 6, wherein a plurality of floating blocks (8) are uniformly connected to the balance rope (23).
8. The water intake device for water quality monitoring according to claim 1, wherein the connecting rope (5), the fixing rope (22) and the balancing rope (23) are stainless steel ropes.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202021222161.2U CN212748390U (en) | 2020-06-28 | 2020-06-28 | Water intake device for water quality monitoring |
Applications Claiming Priority (1)
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CN202021222161.2U CN212748390U (en) | 2020-06-28 | 2020-06-28 | Water intake device for water quality monitoring |
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CN212748390U true CN212748390U (en) | 2021-03-19 |
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CN202021222161.2U Active CN212748390U (en) | 2020-06-28 | 2020-06-28 | Water intake device for water quality monitoring |
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- 2020-06-28 CN CN202021222161.2U patent/CN212748390U/en active Active
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