CN210665146U - Detection pool for papermaking wastewater - Google Patents

Abstract

The utility model discloses a detection tank for papermaking wastewater, which relates to the field of wastewater treatment and comprises a tank body, wherein a portal frame is spanned and arranged above the tank body, a supporting seat is arranged on the portal frame, the supporting seat is horizontally and rotatably connected with a rotating shaft, and a power-off self-locking motor for driving the rotating shaft to rotate is arranged on the supporting seat; a plurality of winches are arranged on the rotating shaft at intervals, the diameters of the winches from one end of the rotating shaft to the other end of the rotating shaft are arranged in an increasing mode, a winch rope is wound on the winches, and sampling bottles are arranged at the end portions of the winch rope; the sampling bottle comprises a bottle body and a bottle cap, a plurality of water inlets are formed in the bottle cap, and a switch portion for controlling the opening and closing of the water inlets is arranged on the lower end face of the bottle cap. The utility model has the advantages of it is following and effect: winch through setting up a plurality of different diameters controls a plurality of sampling bottles and sinks the aquatic of the different degree of depth, realizes the simultaneous acquisition of the different degree of depth water sample, has reached the effect of conveniently gathering the different degree of depth water sample.

Description

Detection pool for papermaking wastewater

Technical Field

The utility model relates to a waste water treatment field, in particular to papermaking waste water is with detecting pond.

Background

The papermaking wastewater refers to wastewater generated in the pulping and papermaking process, and after the traditional papermaking wastewater is subjected to multistage physicochemical and biochemical treatment, the wastewater is usually discharged into a detection tank, and then the wastewater is detected, and the wastewater is discharged after meeting the discharge standard.

When the waste water sample in the collection detection pond, put into waste water with the sampling bottle usually, then detect waste water again. But because waste water is after the stillness of detection pond, the layering phenomenon appears in waste water easily, consequently just need gather the water sample of the different degree of depth one by one, leads to the collecting process of water sample very inconvenient, awaits improvement.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a papermaking is detection pond for waste water has the effect of conveniently gathering different degree of depth water samples.

The above technical purpose of the present invention can be achieved by the following technical solutions: a detection tank for papermaking wastewater comprises a tank body, wherein a portal frame is arranged above the tank body in a crossing manner, a supporting seat is arranged on the portal frame, a rotating shaft is horizontally and rotatably connected to the supporting seat, and a power-off self-locking motor for driving the rotating shaft to rotate is arranged on the supporting seat; a plurality of winches are arranged on the rotating shaft at intervals, the diameters of the winches from one end of the rotating shaft to the other end of the rotating shaft are arranged in an increasing mode, a winch rope is wound on the winches, and sampling bottles are arranged at the end portions of the winch rope; the sampling bottle comprises a bottle body and a bottle cap, a plurality of water inlets are formed in the bottle cap, and a switch portion for controlling the opening and closing of the water inlets is arranged on the lower end face of the bottle cap.

Through adopting above-mentioned technical scheme, when the waste water sample in the pond body needs to be gathered, utilize the outage to control pivot and a plurality of capstan winch synchronous revolution from locking-type motor, because the diameter of a plurality of capstans is different, consequently the length of unreeling of the last hinge rope of capstan winch is different, and after the rotatory period of pivot promptly, a plurality of sampling bottles are the echelonment and distribute to be located the different degree of depth positions of waste water. The switch portion of controlling again this moment opens for the water sample of the different degree of depth flows to the bottle along the water inlet in, and switch portion closes again afterwards. And finally, controlling the power-off self-locking type motor to rotate reversely, driving the winch to rotate reversely by the power-off self-locking type motor, and lifting a plurality of sampling bottles to realize simultaneous water taking of water samples with different depths. Consequently, through the aquatic of setting up the different degree of depth that a plurality of sampling bottles of capstan winch control of a plurality of different diameters sink into, gather when realizing the different degree of depth water samples, reached the effect of conveniently gathering the different degree of depth water samples.

The utility model discloses a further set up to: the outer wall of the hinged rope is provided with scale marks.

Through adopting above-mentioned technical scheme, through setting up the scale mark, conveniently observe the length that the hinge rope gos deep into the aquatic to be convenient for judge the degree of depth position of sampling bottle in the aquatic.

The utility model discloses a further set up to: the switch portion is including setting up in the switch panel of terminal surface under the bottle lid and drive the rotatory remote control motor of switch panel, the switch panel covers the water inlet, and be provided with on the switch panel and be used for the intercommunication the switch hole of water inlet.

Through adopting above-mentioned technical scheme, when control switch portion opened and close, remote control motor drove the flashboard rotation. When the switch hole on the switch board is connected with the water inlet, the opening control is realized; when the switch hole on the switch board is separated from the water inlet, the switch board covers the water inlet, thereby realizing closing control. The structure of switch portion is succinct to can remote control, make the control process that the water inlet was opened and close more convenient.

The utility model discloses a further set up to: the supporting seat is horizontally connected to the portal frame in a sliding mode, and a driving mechanism used for driving the supporting seat to slide is arranged on the portal frame.

Through adopting above-mentioned technical scheme, slide through setting up actuating mechanism control supporting seat for the sample bottle can be located the surface of water top of different positions, consequently can realize the sample of the different degree of depth waste water of different positions.

The utility model discloses a further set up to: the driving mechanism comprises wire reels arranged at two ends of the portal frame, and pull wires are wound on the wire reels and fixed at the end parts of the supporting seats.

Through adopting above-mentioned technical scheme, when the control supporting seat slided, through rotating the wire reel at portal frame both ends alone, can realize the reciprocal control of sliding of supporting seat, and then make the control process of sliding of supporting seat light more convenient.

The utility model discloses a further set up to: the bottle includes the body and is located the weight plate of body below.

Through adopting above-mentioned technical scheme, through the weight that sets up the whole sampling bottle of weight disk increase to ensure that the sampling bottle can be smooth immerse in the waste water, realize taking a sample smoothly of waste water.

The utility model discloses a further set up to: the bottle comprises a bottle body and is characterized in that a mounting hole is formed in the upper end face of the counterweight plate, a mounting rod used for being connected with the mounting hole in an inserting mode is vertically arranged on the lower end face of the bottle body, and a locking portion used for fixing the counterweight plate on the mounting rod is arranged on the counterweight plate.

Through adopting above-mentioned technical scheme, when changing the weight plate of different weight according to the depth of water of different positions, select the weight plate of suitable weight earlier, then insert the installation pole of body terminal surface under the body in the mounting hole on the weight plate after, reuse the sticking department to lock the weight plate, can realize the installation of weight plate, can gather deep water sample afterwards. Consequently, through setting up the detachable weight plate, realize the regulation of body weight to ensure that the body can be smooth sink into the aquatic of the different degree of depth.

The utility model discloses a further set up to: the locking part comprises a pair of locking rods which are arranged in parallel, a connecting rod is connected between one ends of the pair of locking rods, and elastic convex balls are arranged at the other ends of the pair of locking rods; the lateral wall of weight plate runs through and is provided with the intercommunication the mounting hole just supplies the locking hole that the locking lever was pegged graft, and be provided with the round on the installation pole and supply the locking groove of locking lever pole embedding.

Through adopting above-mentioned technical scheme, when locking the sticking department, with in the locking hole of elasticity marble embedding counterweight plate one side lateral wall, then drive connecting rod drives locking lever and elasticity marble and slides along the inner wall of locking hole. And meanwhile, after the locking rod penetrates through the locking groove on the outer wall of the mounting rod, the locking rod penetrates out along the locking hole on the other side. At the moment, the elastic convex ball is separated from the locking hole and abuts against the outer wall of the counterweight plate, so that the vertical limiting of the mounting rod is realized, and the locking and fixing of the locking part and the counterweight plate are realized. When the locking part is released, the connecting rod is pulled to drive the locking rod and the elastic convex ball to slide outwards along the inner wall of the locking hole. And after the locking rod is completely separated from the locking groove and the locking hole, the vertical limit of the mounting rod is released, namely the locking of the locking part and the counterweight plate is released. Therefore, the structure is simple, the limiting mechanism is easy and convenient to lock and release, and the dismounting process of the counterweight plate is easier and more convenient.

To sum up, the utility model discloses following beneficial effect has:

1. the winch with the different diameters is arranged to control the sampling bottles to sink into water with different depths, so that water samples with different depths are collected simultaneously, and the effect of conveniently collecting the water samples with different depths is achieved;

2. the opening and closing control process of the water inlet is more convenient by the switch part which is simple in structure and can be remotely controlled;

3. by arranging the sliding supporting seat, the sampling bottle can be positioned above the water surface at different positions, so that the sampling of wastewater at different depths at different positions can be realized;

4. through the weight that sets up the whole sampling bottle of weight disc increase to ensure that the sampling bottle can be smooth immerse in the waste water, realize taking a sample smoothly of waste water.

Drawings

FIG. 1 is a schematic structural view of an embodiment;

FIG. 2 is a schematic structural view of the support base according to the embodiment;

FIG. 3 is a schematic structural view of a sample bottle of an embodiment;

fig. 4 is a schematic structural view of the bottle cap according to the embodiment.

Reference numerals: 1. a tank body; 2. a gantry; 3. a supporting seat; 31. a rotating shaft; 32. a power-off self-locking motor; 33. a winch; 34. rope reaming; 35. scale lines; 4. a drive mechanism; 41. a wire spool; 42. a pull wire; 5. a sampling bottle; 51. a bottle body; 52. a bottle cap; 53. a water inlet; 54. a bottle body; 55. a weight plate; 56. mounting holes; 57. mounting a rod; 58. a locking hole; 59. a locking groove; 6. a switch section; 61. a switch plate; 62. a remote control motor; 63. a switch hole; 7. a locking portion; 71. a locking lever; 72. a connecting rod; 73. elastic convex balls.

Detailed Description

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

As shown in figure 1, a detection tank for papermaking wastewater comprises a tank body 1, a portal frame 2 is arranged above the tank body 1 in a crossing manner, a support seat 3 is horizontally and slidably connected to the portal frame 2, and a driving mechanism 4 for driving the support seat 3 to slide is arranged on the portal frame 2.

As shown in fig. 1 and 2, a rotating shaft 31 is horizontally and rotatably connected to the supporting base 3, and a power-off self-locking motor 32 for driving the rotating shaft 31 to rotate is disposed on the supporting base 3. A plurality of capstans 33 are arranged on the rotating shaft 31 at intervals, and the diameters of the plurality of capstans 33 from one end to the other end of the rotating shaft 31 are arranged in an increasing manner.

As shown in fig. 2 and 3, a winch 33 is wound with a winch rope 34, the end of the winch rope 34 is provided with the sample bottle 5, and the outer wall of the winch rope is provided with a scale mark 35. The sampling bottle 5 comprises a bottle body 51 and a bottle cap 52, the bottle cap 52 is provided with a plurality of water inlets 53, and the lower end surface of the bottle cap 52 is provided with a switch part 6 for controlling the opening and closing of the water inlets 53.

When the waste water sample in the cell body 1 needs to be collected, the supporting seat 3 is firstly controlled by the driving mechanism 4 to slide, and at the moment, the supporting seat 3 drives the rotating shaft 31, the winch 33 and the sampling bottle 5 to move synchronously. And starting to sample the wastewater after the sampling bottle 5 moves to the position above the water surface to be sampled.

When sampling, the rotating shaft 31 and the plurality of winches 33 are controlled to synchronously rotate by the outage self-locking motor 32, and the winches 33 gradually wind down the winch ropes 34. Because the diameters of the winches 33 are different, the unreeling lengths of the winch ropes 34 on the winches 33 are different, that is, after the rotating shaft 31 rotates for a period of time, the sampling bottles 5 are distributed in a step shape and are positioned at different depth positions of the waste water.

At this time, the switch unit 6 is controlled to open, so that the water samples of different depths flow into the bottle 51 along the water inlet 53, and then the switch unit 6 is controlled to close. Finally, the outage self-locking motor 32 is controlled to rotate reversely, the outage self-locking motor 32 drives the winch 33 to rotate reversely, the winch rope 34 is wound, and meanwhile the plurality of sampling bottles 5 are lifted, so that water samples of different depths are taken simultaneously.

As shown in fig. 1, the driving mechanism 4 includes wire reels 41 disposed at both ends of the gantry 2, a wire 42 is wound around the wire reels 41, and the wire 42 is fixed to the end of the support base 3.

When the supporting seat 3 is controlled to slide, the wire reels 41 at the two ends of the portal frame 2 are independently rotated, the wire drawing 42 at the end is wound by the wire reels 41, and the wire drawing 42 can be used for driving the supporting seat 3 to move towards the wire reels 41 in the working direction, so that the sliding control of the supporting seat 3 is realized.

As shown in fig. 3 and 4, the switch unit 6 includes a switch plate 61 disposed on a lower end surface of the bottle cap 52 and a remote control motor 62 for driving the switch plate 61 to rotate, the switch plate 61 covers the water inlet 53, and the switch plate 61 is provided with a switch hole 63 for communicating with the water inlet 53.

When the control switch part 6 is turned on, the remote control motor 62 drives the switch board 61 to rotate, and when the switch hole 63 on the switch board 61 is connected with the water inlet 53, the on-off control is realized.

When the control switch part 6 is closed, the remote control motor 62 drives the switch board 61 to rotate reversely, and when the switch hole 63 on the switch board 61 is separated from the water inlet 53, the switch board 61 covers the water inlet 53, thereby realizing the closing control.

As shown in fig. 3, the bottle body 51 comprises a bottle body 54 and a weight plate 55 located below the bottle body 54, wherein an installation hole 56 is formed in an upper end surface of the weight plate 55, an installation rod 57 for inserting the installation hole 56 is vertically formed in a lower end surface of the bottle body 54, and a locking portion 7 for fixing the weight plate 55 on the installation rod 57 is formed on the weight plate 55.

When taking a sample to waste water, through addding the weight of the whole sampling bottle 5 of the increase of weight plate 55 to ensure that sampling bottle 5 can be smooth sink into waste water, and then realize taking a sample smoothly of waste water. And when the weight plates 55 with different weights are replaced according to the water depths of different positions, the weight plates 55 with proper weights are selected according to requirements.

Then, after the mounting rod 57 on the lower end face of the bottle body 54 is inserted into the mounting hole 56 on the weight plate 55, the weight plate 55 is locked by the locking part 7, and the mounting of the weight plate 55 can be realized, so that the sampling bottle can smoothly sink into water at different depths, and the sampling of waste water is completed.

As shown in fig. 3, the locking portion 7 includes a pair of locking levers 71 disposed in parallel with each other, a connecting rod 72 is connected between one ends of the pair of locking levers 71, and the other ends are each provided with an elastic convex ball 73. The side wall of the weight plate 55 is provided with a locking hole 58 which is communicated with the mounting hole 56 and is used for inserting the locking rod 71, and the mounting rod 57 is provided with a circle of locking grooves 59 which are used for inserting the locking rod 71.

When the locking part 7 is locked, the elastic convex ball 73 is inserted into the locking hole 58 of one side wall of the weight plate 55, and then the connecting rod 72 is driven to drive the locking rod 71 and the elastic convex ball 73 to slide along the inner wall of the locking hole 58. Meanwhile, the locking rod 71 passes through the locking groove 59 on the outer wall of the mounting rod 57 and then passes out along the locking hole 58 on the other side. At this time, the elastic convex ball 73 is separated from the locking hole 58 and abuts against the outer wall of the weight plate 55, so that the vertical limit of the mounting rod 57, that is, the locking and fixing of the locking part 7, is realized.

When the locking part 7 is released, pulling the connecting rod 72 causes the locking lever 71 and the elastic convex ball 73 to slide outward along the inner wall of the locking hole 58. After the locking rod 71 is completely separated from the locking groove 59 and the locking hole 58, the vertical limit of the mounting rod 57 is released, that is, the locking of the locking part 7 and the weight plate 55 is released.

The working principle is as follows: when waste water is sampled, the supporting seat 3 is controlled to move to the position above the water surface needing sampling, and then the power-off self-locking motor 32 is controlled to drive the rotating shaft 31 and the plurality of winches 33 to synchronously rotate, so that the sampling bottle 5 sinks into water. Because the diameters of the plurality of winches 33 are different, after the rotating shaft 31 rotates for a period of time, the unreeling lengths of the winch ropes 34 are different, namely, the plurality of sampling bottles 5 are located at different depth positions of the waste water. At this moment, the remote control switch part 6 is opened, so that water samples with different depths flow into the sampling bottle 5 along the water inlet 53, then the remote control switch part 6 is closed, and the self-locking motor 32 is controlled to rotate reversely when power is cut off. Until the sampling bottle 5 is lifted completely, water is taken while different depth water samples are realized.

The specific embodiments are only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiments without inventive contribution as required after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (8)

1. The utility model provides a papermaking is detection pond for waste water, includes cell body (1), its characterized in that: a portal frame (2) is arranged above the pool body (1) in a crossing manner, a supporting seat (3) is arranged on the portal frame (2), a rotating shaft (31) is horizontally and rotatably connected to the supporting seat (3), and a power-off self-locking motor (32) for driving the rotating shaft (31) to rotate is arranged on the supporting seat (3);

a plurality of winches (33) are arranged on the rotating shaft (31) at intervals, the diameters of the winches (33) from one end to the other end of the rotating shaft (31) are arranged in an increasing mode, a winch rope (34) is wound on the winch (33), and a sampling bottle (5) is arranged at the end portion of the winch rope (34);

sampling bottle (5) are including bottle (51) and bottle lid (52), be provided with a plurality of water inlets (53) on bottle lid (52), and the lower terminal surface of bottle lid (52) is provided with the control switch portion (6) that water inlet (53) were opened and close.

2. The detection tank for papermaking wastewater according to claim 1, characterized in that: the outer wall of the hinge rope (34) is provided with scale marks (35).

3. The detection tank for papermaking wastewater according to claim 1, characterized in that: the switch part (6) comprises a switch plate (61) arranged on the lower end face of the bottle cap (52) and a remote control motor (62) for driving the switch plate (61) to rotate, the switch plate (61) covers the water inlet (53), and a switch hole (63) used for communicating the water inlet (53) is formed in the switch plate (61).

4. The detection tank for papermaking wastewater according to claim 1, characterized in that: the supporting seat (3) is horizontally connected to the portal frame (2) in a sliding mode, and a driving mechanism (4) used for driving the supporting seat (3) to slide is arranged on the portal frame (2).

5. The detection tank for papermaking wastewater according to claim 4, characterized in that: the driving mechanism (4) comprises wire reels (41) arranged at two ends of the portal frame (2), a pull wire (42) is wound on the wire reels (41), and the pull wire (42) is fixed at the end part of the supporting seat (3).

6. The detection tank for papermaking wastewater according to claim 1, characterized in that: the bottle body (51) comprises a bottle body (54) and a weight disc (55) positioned below the bottle body (54).

7. The detection tank for papermaking wastewater according to claim 6, characterized in that: the upper end face of the counterweight plate (55) is provided with an installation hole (56), the lower end face of the bottle body (54) is vertically provided with an installation rod (57) used for being inserted into the installation hole (56), and the counterweight plate (55) is provided with a locking part (7) used for fixing the counterweight plate on the installation rod (57).

8. The detection tank for papermaking wastewater according to claim 7, characterized in that: the locking part (7) comprises a pair of locking rods (71) which are arranged in parallel, a connecting rod (72) is connected between one ends of the locking rods (71), and elastic convex balls (73) are arranged at the other ends of the locking rods;

the side wall of weight plate (55) runs through and is provided with the intercommunication mounting hole (56) and supplies locking hole (58) that locking lever (71) pegged graft to be provided with the round on installation pole (57) and supply locking lever (71) pole embedding locking groove (59).

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