CN103408076B - Polymeric ferric sulfate automatic feeding system and method - Google Patents

Abstract

The invention aims at providing a polymeric ferric sulfate automatic feeding system with advantages of simple structure and convenient operation, and a method thereof. The invention adopts a technical scheme that: the polymeric ferric sulfate automatic feeding system comprises a reversed U-shaped hollow guide pipe and a support mechanism; the inlet end face of the reversed U-shaped hollow guide pipe is higher than the outlet end face; a slide device is arranged on a vertical guide pipe at the inlet end; a floating pad is arranged closed to the inlet end; the support mechanism comprises a vertical guide rail and a fixed support; the vertical guide rail is connected on the fixed support; the slide device arranged on the reversed U-shaped hollow guide pipe is connected with the vertical guide rail of the support mechanism; when the floating pad moves up and down with the solution volume, the slide device performs elevation movements on the vertical guide rail.

Description

Bodied ferric sulfate automatic feeding system and method thereof

Technical field

The present invention relates to a kind of automatic feeding system, particularly a kind of bodied ferric sulfate automatic feeding system.

Background technology

At present in town water and Industrial Wastewater Treatment, not only economy but also easy flocculent precipitation is generally used to purify water both at home and abroad.And the quality of flocculating effect can have influence on the processing costs of the follow-up flow process of water technology, even affect the quality of final outflow water.

To have coagulation performance excellent because of it for polymeric ferrous sulphate solution, and settling velocity is fast, safety non-toxic, the feature that purifying water effect is excellent and being widely used in the process of town water and trade effluent.But the feeding mode of the bodied ferric sulfate of present stage is generally to rely on artificial directly input in water purifying tank after polymeric ferrous sulphate solution dilution, to drop into dosage and the speed poor controllability of solution, affect treatment effect.Therefore, need exploitation or improve feeding mode and the equipment of existing bodied ferric sulfate, exploitation bodied ferric sulfate automatic feeding system, realizing bodied ferric sulfate add-on and add speed controlled, to realize excellent purifying water effect.

Summary of the invention

The object of this invention is to provide a kind of structure simple, the bodied ferric sulfate automatic feeding system of simple operation.

The present invention adopts following technical scheme to achieve these goals: a kind of bodied ferric sulfate automatic feeding system, comprise inverted U hollow conduit and bracket institution, the inlet end face of described inverted U hollow conduit is higher than exit end face, the longitudinal duct at entrance end place is provided with carriage, entrance end place is provided with floating plate; Described bracket institution comprises longitudinal rail and fixed support, and longitudinal rail is connected on fixed support; Above-mentionedly be arranged on the carriage on inverted U hollow conduit and be connected with the longitudinal rail of bracket institution, when floating plate moves up and down with the increase and decrease of liquor capacity, carriage does up-and-down movement on longitudinal rail.

Described bracket institution also includes overarm brace, and support bracket fastened upper end is fixedly connected with in the middle part of longitudinal rail by overarm brace, and described fixed support lower end is provided with triangle polyester fibre frame.

The carriage be arranged on inverted U hollow conduit is the web member with opening end, and the opening end of this web member is fixed with roller, ball or slide block, and the other end is fixed on inverted U hollow conduit.

Described longitudinal rail longitudinally has the channel suspending rail slided for roller, ball or slide block thereon.

Further, described floating plate bottom surface is provided with buoyant spheres.

Advantage of the present invention and positively effect are: owing to adopting technique scheme, solve polymeric ferrous sulphate solution drops into water purifying tank problem from solution pool automatic uniform speed, achieve automated operation, save manpower, greatly improve working efficiency, and easy and simple to handle, with low cost.

Accompanying drawing explanation

The nonlimiting examples that device of the present invention can be provided by accompanying drawing further illustrates.

Fig. 1 is structural representation of the present invention;

Fig. 2 is the structural representation of carriage in Fig. 1;

In figure: 1-solution pool, 2-triangle polyester fibre frame, 3-fixed support, 4-overarm brace, 5-inverted U hollow tube, 6-longitudinal rail, 7-roller, ball or slide block, 8-carriage, 11-floating plate, 12-buoyant spheres.

Embodiment

Be described further below in conjunction with accompanying drawing.

Technical scheme of the present invention: a kind of bodied ferric sulfate automatic feeding system, comprises inverted U hollow conduit 5 and bracket institution.See Fig. 1, the hollow conduit of inverted U shown in figure 5 comprises the horizontal pipeline of one section of level, the two ends of described horizontal pipeline connect longitudinal duct perpendicular to ground and longitudinal material outlet canal respectively, and namely the two ends mouth of pipe of described horizontal pipeline connects longitudinal ducts and longitudinal material outlet canal by 90 ° of bend pipes.The lower end mouth of pipe of described longitudinal duct is entrance end, the upper end mouth of pipe of described longitudinal duct is connected with horizontal pipeline by 90 ° of bend pipes.The lower end mouth of pipe of described longitudinal material outlet canal is exit end, the upper end mouth of pipe is connected with horizontal pipeline by 90 ° of bend pipes.During work, described entrance end and exit end all sweep away, and liquid flows into inverted U hollow conduit 5 from entrance end, flows out afterwards from exit end.

The inlet end face of described inverted U hollow conduit 5 is higher than exit end face, and its difference of altitude is △ H.(top) longitudinal duct at described entrance end place is provided with carriage 8.Described entrance end stretches in solution pool 1, entrance end place is provided with floating plate 11, described floating plate 11 is a leveling board, in the present embodiment, described longitudinal duct is through floating plate 11, and be fixedly connected with floating plate 11, namely the lower end mouth of pipe (entrance end) of described longitudinal duct is below floating plate 11.Described floating plate 11 swims on the liquid level of solution pool 1, under the liquid level that the described entrance end below floating plate 11 is in solution pool 1 or concordant with liquid level.Described bracket institution comprises longitudinal rail 6 and fixed support 3.In the present embodiment, described fixed support 3 is placed in solution pool 1 side.Described longitudinal rail 6 is connected on fixed support 3, and described longitudinal rail 6 is parallel to each other with described longitudinal duct.

Above-mentionedly be arranged on the carriage 8 on inverted U hollow conduit 5 and match with the longitudinal rail 6 of bracket institution, when floating plate 11 moves up and down with the increase and decrease of liquor capacity, carriage 8 does up-and-down movement on longitudinal rail 6.

See Fig. 2, in the present embodiment, described carriage 8 comprises the dull and stereotyped 8-1 be fixedly mounted on longitudinal duct.Namely described longitudinal duct is through dull and stereotyped 8-1, and is fixedly connected with dull and stereotyped 8-1.Described dull and stereotyped 8-1 is provided with and is parallel to each other and isometric wheel shaft I 7-1 and wheel shaft II 7-3.Described wheel shaft I 7-1 is mutually vertical with longitudinal duct.As preferably, described wheel shaft I 7-1 and horizontal pipeline are parallel to each other.One end attachment rail of described wheel shaft I 7-1 takes turns I 7-2, and one end attachment rail of described wheel shaft II 7-3 takes turns II 7-4, and namely described rail wheel I 7-2 and rail wheel II 7-4 is the fluted wheel of tool on wheel rim.In the present embodiment, " described carriage 8 matches with the longitudinal rail 6 of bracket institution " is namely that rail wheel I 7-2 and rail wheel II 7-4 coordinate with longitudinal rail 6.Particularly, described longitudinal rail 6 is round bars, and the groove on described rail wheel I 7-2 and rail wheel II 7-4 edge is buckled in longitudinal rail 6(round bar) on.As preferably, described rail wheel I 7-2 and rail wheel II 7-4 are the V belt wheels that size is identical, after it being arranged on respectively wheel shaft I 7-1 and wheel shaft II 7-3, rail wheel I 7-2 and rail wheel II 7-4 lays respectively at the both sides of described round bar, the groove of rail wheel I 7-2 and rail wheel II 7-4 is stuck on round bar, and described inverted U hollow conduit 5 can be moved up and down along round bar.

Further, in the present embodiment, the dull and stereotyped 8-1 in described carriage 8 is positioned at the top of floating plate 11, and the distance between described floating plate 11 and dull and stereotyped 8-1 is H _-1--.Further, as shown in fig. 1, there is in the present embodiment some carriages 8, preferably two.Namely longitudinal duct is provided with some dull and stereotyped 8-1.In this case, the distance between described floating plate 11 and nethermost one flat plate 8-1 is H _-1--.Wherein, H _-1--be greater than the degree of depth of solution pool 1, in case sliding stop device 8 is impacted.

Further, described bracket institution also includes overarm brace 4, and the upper end of fixed support 3 is fixedly connected with in the middle part of longitudinal rail 6 by overarm brace 4, and described fixed support 3 lower end is provided with triangle polyester fibre frame 2.

Be arranged on carriage 8 on inverted U hollow conduit 5 for having the web member of opening end, the opening end of this web member is fixed with roller, ball or slide block 7, and the other end is fixed on inverted U hollow conduit 5.

Described longitudinal rail 6 longitudinally has the channel suspending rail slided for roller, ball or slide block 7 thereon.

Described floating plate 11 bottom surface arranges (lower end installation) buoyant spheres 12, and described buoyant spheres 12 upper end jacking floating plate 11, to increase its buoyancy.

The working process of this example, namely adopts the bodied ferric sulfate automatic charging method of said system:

First, polymeric ferrous sulphate solution is watered and is diluted to desired concn and injects in solution pool 1, the triangle polyester fibre frame 2 of fixed support 3 lower end is utilized bracket institution to be fixed on a correct position between solution pool 1 and water purifying tank, make the entrance end of inverted U hollow conduit 5 insert in solution pool 1, its exit end aims at water purifying tank.Then, a low pressure environment is created in inverted U hollow conduit 5, utilize siphon principle, polymeric ferrous sulphate solution is made to flow to the exit end of lower position from the entrance end being in higher position, buoyant spheres 12 jacking floating plate 11 and is swum on polymeric ferrous sulphate solution, and move up and down along with the increase and decrease of liquor capacity, thus drive carriage 8 to do up-and-down movement on longitudinal rail 6, and then ensure that the height difference △ H of the inlet end face of inverted U hollow conduit 5 and exit end face is constant, polymeric ferrous sulphate solution is at the uniform velocity flowed in water purifying tank, reach the object that efficient quantitative is thrown in.

Claims (3)

1. a bodied ferric sulfate automatic feeding system, comprise inverted U hollow conduit (5) and bracket institution, it is characterized in that: the inlet end face of described inverted U hollow conduit (5) is higher than exit end face, the longitudinal duct at entrance end place is provided with carriage (8), entrance end place is provided with floating plate (11);

Described bracket institution comprises longitudinal rail (6) and fixed support (3), and longitudinal rail (6) is connected on fixed support (3);

Above-mentionedly be arranged on the carriage (8) on inverted U hollow conduit (5) and match with the longitudinal rail (6) of bracket institution, when floating plate (11) moves up and down with the increase and decrease of liquor capacity, carriage (8) does up-and-down movement on longitudinal rail (6);

Described carriage (8) comprises the flat board (8-1) be fixedly mounted on longitudinal duct, namely described longitudinal duct is through dull and stereotyped (8-1), and be fixedly connected with dull and stereotyped (8-1), described flat board (8-1) is provided with and is parallel to each other, and isometric wheel shaft I (7-1) and wheel shaft II (7-3), described wheel shaft I (7-1) is mutually vertical with longitudinal duct, described wheel shaft I (7-1) and horizontal pipeline are parallel to each other, one end attachment rail wheel I (7-2) of described wheel shaft I (7-1), one end attachment rail wheel II (7-4) of described wheel shaft II (7-3), described rail wheel I (7-2) and rail wheel II (7-4) are namely the fluted wheels of tool on wheel rim.

2. bodied ferric sulfate automatic feeding system according to claim 1, it is characterized in that: described bracket institution also includes overarm brace (4), the upper end of fixed support (3) is fixedly connected with longitudinal rail (6) middle part by overarm brace (4), and described fixed support lower end is provided with triangle polyester fibre frame (2).

3. bodied ferric sulfate automatic feeding system according to claim 1, is characterized in that: described floating plate (11) bottom surface is provided with buoyant spheres (12).