CN207342705U - The reaction unit of efficient dephosphorization agent - Google Patents

Abstract

The utility model discloses the reaction unit of efficient dephosphorization agent, including support baseboard, two supporting racks are symmetrically arranged with the support baseboard, the both sides of reactor main body are rotatably connected between two one end of supporting rack away from support baseboard by shaft, the bottom of the reactor main body is provided with semicircular gear, first driving motor is installed on the support baseboard, and first drives the output shaft of motor to be installed with drive gear, and drive gear is engaged with semicircular gear, the reactor main body is cylindrical hollow structure, and rotation axis is rotatablely equipped with by bearing between inner top and the center of circle of bottom plate.Rotation axis drives supporting rod and bottom swingle to rotate in the utility model, under the action of adjustable spring, floating rule is close to bottom plate and side wall, the inner wall and bottom plate of reaction kettle can be cleaned in real time, ensure that the powder that sintering produces without being adhered on inner wall, improve the discharging efficiency of dephosphorization agent finished product.

Description

The reaction unit of efficient dephosphorization agent

Technical field

It the utility model is related to dephosphorization agent technical field, more particularly to the reaction unit of efficient dephosphorization agent.

Background technology

Dephosphorization agent is the article to the processing of urban water sources coagulation turbidity removing and dephosphorization.It can be removed to urban water resource water coagulation Turbid processing at the same time, reaches deep phosphorous removal purpose.So as to which the phosphorus content in drinking water after processing is down to below boundary value, it is not necessary to Change original sub-block flow, it is not necessary to large-scale water treatment building is added, it is simple and easy to do, it is economical and practical, significant society can be obtained Meeting and economic benefit.This product can directly be added during use, or first add dissolving tank, concentration is 10~20%, stirring, with pump It is added to reaction tank.The pH value range that this product is applicable in is wide, in acid condition using effect it is further preferred that, usage amount is about 100~ 1000ppm (i.e. 0.1~1 kg/tonne of waste water), it is specific to use according to its different dosage of the content of Phosphorus From Wastewater acid group difference Amount is generally determined by experiment, FeCl3 and AlCl3 solution adds NaOH solution after being sufficiently mixed uniformly, and three's molar ratio is 3: 2∶14；Product is filtered out after hybrid reaction and standing, it is neutral to be washed repeatedly with water to water outlet；Dried simultaneously at 100-110 DEG C The granulated sorbent of size uniform is made.The application of the adsorbent, adds adsorption and dephosphorization technique in conventional water treatment process, inhales Attached dephosphorization process by 2-4 series operation except phosphorus adsorption tank forms, except phosphorus adsorption tank constructs same filter tank, with granular Fe-Al compound Dephosphorization adsorbent makees filtrate, particle size range 0.5mm-0.8mm, adsorbent layer thickness 1.0-1.5m, adsorption tank hydraulic load 5m/h- 8m/h, air-land combat 30-40min.The adsorbent for phosphate removal is applied widely；Removal effective is excellent, and regeneration is simple, raw material Price is low, and be easy to get safety.

For dephosphorization agent when being prepared, raw material is in the solution, it is necessary to which carrying out heat-agglomerating forms solid after hybrid reaction Powder particle, but during powder compacting, it can be attached on the inner wall and bottom plate of reaction kettle, cause dephosphorization agent finished product to discharge Difficulty, and remnants easily are formed in reaction kettle inner wall, the purity of next group dephosphorization agent preparation is influenced, we design efficiently for this The reaction unit of dephosphorization agent, to solve the above problems.

Utility model content

The purpose of this utility model is to solve shortcoming existing in the prior art, and the efficient dephosphorization agent proposed is anti- Answer device.

To achieve these goals, the utility model employs following technical solution：

The reaction unit of efficient dephosphorization agent, including support baseboard, are symmetrically arranged with two supporting racks on the support baseboard, The both sides of reactor main body, the reaction kettle are rotatably connected between two one end of supporting rack away from support baseboard by shaft The bottom of main body is provided with semicircular gear, the first driving motor is provided with the support baseboard, and first drives motor Output shaft is installed with drive gear, and drive gear is engaged with semicircular gear, during the reactor main body is cylindric Hollow structure, and rotation axis is rotatablely equipped with by bearing between inner top and the center of circle of bottom plate, the rotation axis is positioned at reaction One end of kettle body top and the output axis connection of the second driving motor, the rotation axis are symmetrically installed with stirring from top to bottom Bar, the rabble of the rotation axis both sides are respectively fixedly connected with two supporting rods away from its one end, two supporting rod phases Mutually remote side is provided with the first telescopic chute along its length, and the inside of the first telescopic chute has been equidistantly positioned first and has stretched Contracting spring, the described one end of first adjustable spring away from slot bottom are fixedly connected on side wall floating rule, and the rotation axis is positioned at reaction One end both sides of kettle main body bottom plate are symmetrically arranged with two root bottom part swingles, and two root bottom part swingles are close to the side edge of bottom plate Its length direction is provided with the second telescopic chute, and the second adjustable spring has been equidistantly positioned in the second telescopic chute, and described second stretches The one end of contracting spring away from slot bottom is fixedly connected with bottom floating rule.

Preferably, the side wall floating rule is close to the setting of reactor main body intracavity sidewall, and bottom floating rule is close to reactor main body Inner cavity bottom plate is set.

Preferably, the side wall floating rule is both provided with resistance to by the side of proximal wall and bottom floating rule close to the side of bottom plate Grind layer.

Preferably, the upper end side wall of the reactor main body is provided with feed inlet, and the side wall lower ends away from feed inlet are set There is discharge port, and discharge port is provided with seal cover board, feed inlet is provided with valve.

Preferably, heating metal pipe is equipped with the bottom plate of the reactor main body, and the top of reactor main body is set There is air bleeding valve.

Compared with prior art, the beneficial effects of the utility model are：In the utility model, solution is in reactor main body When being sintered to form powdery granule, rotation axis drives supporting rod and bottom swingle to rotate, under the action of adjustable spring, Floating rule is close to bottom plate and side wall, and the inner wall and bottom plate of reaction kettle can be cleaned in real time, ensures the powder of sintering generation not It can be attached on inner wall, improve the discharging efficiency of dephosphorization agent finished product.

Brief description of the drawings

Fig. 1 be the utility model proposes efficient dephosphorization agent reaction unit structure diagram；

Fig. 2 be the utility model proposes efficient dephosphorization agent reaction unit reactor main body test sectional view；

Fig. 3 be the utility model proposes efficient dephosphorization agent reaction unit vertical view cutaway drawing.

Embodiment

The following is a combination of the drawings in the embodiments of the present utility model, and the technical scheme in the embodiment of the utility model is carried out Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.

With reference to Fig. 1-3, the reaction unit of efficient dephosphorization agent, including support baseboard 1, is symmetrically arranged with two on support baseboard 1 Root supporting rack 2, the two of reactor main body 3 is rotatably connected on by shaft between two one end of supporting rack 2 away from support baseboard 1 Side, the upper end side wall of reactor main body 3 are provided with feed inlet, and the side wall lower ends away from feed inlet are provided with discharge port, and discharge Mouth is provided with seal cover board, and feed inlet is provided with valve, heating metal pipe is equipped with the bottom plate of reactor main body 3, and react The top of kettle main body 3 is provided with air bleeding valve, and the bottom of reactor main body 3 is provided with semicircular gear 4, is installed on support baseboard 1 There is the first driving motor 5, and the output shaft of the first driving motor 5 is installed with drive gear, and drive gear and semicircle Gear 4 engages, and reactor main body 3 is cylindrical hollow structure, and is rotated between inner top and the center of circle of bottom plate by bearing Rotation axis 6 is installed, rotation axis 6 is located at one end and the output axis connection of the second driving motor 7 at the top of reactor main body 3, rotation Shaft 6 is symmetrically installed with rabble 8 from top to bottom, and the rabble 8 of 6 both sides of rotation axis is respectively fixedly connected with away from its one end On two supporting rods 9, the side that two supporting rods 9 are located remotely from each other is provided with the first telescopic chute along its length, and first stretches The inside of contracting groove has been equidistantly positioned the first adjustable spring 10, and first one end of adjustable spring 10 away from slot bottom is fixedly connected on side On wall floating rule 11, one end both sides that rotation axis 6 is located at 3 bottom plate of reactor main body are symmetrically arranged with two root bottom part swingles 12, and Two root bottom part swingles 12 are provided with the second telescopic chute along its length close to the side of bottom plate, and equidistant in the second telescopic chute From the second adjustable spring 13 is provided with, second one end of adjustable spring 13 away from slot bottom is fixedly connected with bottom floating rule 14, side wall Floating rule 11 is close to the setting of 3 intracavity sidewall of reactor main body, and bottom floating rule 14 is close to 3 inner cavity bottom plate of reactor main body and is set, side wall Floating rule 11 is both provided with wearing layer by the side of proximal wall and bottom floating rule 14 close to the side of bottom plate.

When the utility model is used, dephosphorization agent mixed solution enters reactor main body 3, reactor main body by feed inlet The heating metal pipe of 3 bottom plates is to being internally heated so that the moisture evaporation in mixed solution, separates out powdered of dephosphorization agent , in precipitation process, rotation axis 6 drives supporting rod 9 and bottom swingle 12 to rotate, flexible in the first adjustable spring 10 and second Under the action of spring 13, side wall floating rule 11 is close to the side wall of 3 inner cavity of reactor main body, and semicircular gear 6 is close to reactor main body 3 Inner cavity bottom plate, in real time can clean the inner wall and bottom plate of reactor main body 3, ensure that the powder that sintering produces will not adhere to On inner wall, easy to the shipment efficiency of dephosphorization agent powder, meanwhile, after the completion of sintering, first driving motor 5 on drive gear with Semicircular gear 4 engages, and drives reactor main body 3 to be tilted towards the side of discharge port so that dephosphorization agent powder is automatically from discharging Mouth is poured out.

The above, is only the preferable embodiment of the utility model, but the scope of protection of the utility model is not This is confined to, any one skilled in the art is in the technical scope that the utility model discloses, according to this practicality New technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims (5)

1. the reaction unit of efficient dephosphorization agent, including support baseboard (1), it is characterised in that symmetrically set on the support baseboard (1) Two supporting racks (2) are equipped with, two supporting racks (2) are rotatably connected on instead between one end away from support baseboard (1) by shaft The both sides of kettle main body (3) are answered, the bottom of the reactor main body (3) is provided with semicircular gear (4), the support baseboard (1) On the first driving motor (5) is installed, and the output shaft of the first driving motor (5) is installed with drive gear, and sliding tooth Wheel is engaged with semicircular gear (4), and the reactor main body (3) is cylindrical hollow structure, and the circle of inner top and bottom plate Rotation axis (6) is rotatablely equipped with by bearing between the heart, the rotation axis (6) be located at one end at the top of reactor main body (3) with The output axis connection of second driving motor (7), the rotation axis (6) are symmetrically installed with rabble (8), the rotation from top to bottom The rabble (8) of axis (6) both sides is respectively fixedly connected with two supporting rods (9) away from its one end, two supporting rod (9) phases Mutually remote side is provided with the first telescopic chute along its length, and the inside of the first telescopic chute has been equidistantly positioned first and has stretched Contracting spring (10), the one end of first adjustable spring (10) away from slot bottom are fixedly connected on side wall floating rule (11), the rotation One end both sides that shaft (6) is located at reactor main body (3) bottom plate are symmetrically arranged with two root bottom part swingles (12), and two root bottom parts Swingle (12) is provided with the second telescopic chute along its length close to the side of bottom plate, and is equidistantly positioned in the second telescopic chute There is the second adjustable spring (13), the one end of second adjustable spring (13) away from slot bottom is fixedly connected with bottom floating rule (14).

2. the reaction unit of efficient dephosphorization agent according to claim 1, it is characterised in that the side wall floating rule (11) is close to Reactor main body (3) intracavity sidewall is set, and bottom floating rule (14) is close to reactor main body (3) inner cavity bottom plate and is set.

3. the reaction unit of efficient dephosphorization agent according to claim 1, it is characterised in that the side wall floating rule (11) is close The side of side wall and bottom floating rule (14) are both provided with wearing layer close to the side of bottom plate.

4. the reaction unit of efficient dephosphorization agent according to claim 1, it is characterised in that the reactor main body (3) Upper end side wall is provided with feed inlet, and the side wall lower ends away from feed inlet are provided with discharge port, and discharge port is provided with seal cover board, Feed inlet is provided with valve.

5. the reaction unit of efficient dephosphorization agent according to claim 1, it is characterised in that the reactor main body (3) Heating metal pipe is equipped with bottom plate, and air bleeding valve is provided with the top of reactor main body (3).