CN212188755U - Stirring mechanism for chemical agent feeding in water treatment - Google Patents

Abstract

The utility model discloses a water treatment puts in rabbling mechanism for chemical agent includes: the lifting component, and a second stirring mechanism and a first stirring mechanism which are connected with the lifting component in a sliding mode. The utility model discloses to shift subassembly and churn design for the grafting mode, through pegging graft (mixing) shaft and mixing shaft, and then make the (mixing) shaft drive the mixing shaft and rotate, and then drive mixed paddle leaf and mix immediately the leaf by the mixing shaft and rotate, and then accomplish the stirring mixing action to the chemical agent, will mix the paddle leaf and mix immediately the leaf design in the churn, and then when the (mixing) shaft need go on breaking away from with the churn, only need take out from the (mixing) shaft can, and then replace the tradition need take out the mode of leaving with the paddle, and then avoid taking out from the great part with chemical agent area of contact, and then reduce the chemical agent that adheres to on the part and taken out by the pump.

Description

Stirring mechanism for chemical agent feeding in water treatment

Technical Field

The utility model relates to an rabbling mechanism specifically is a water treatment puts in rabbling mechanism for chemical agent.

Background

The stirring device is mainly used for stirring, dissolving and storing various medicaments in a medicament adding box in a water treatment project, and then liquid medicaments are added to each adding point through a metering pump or a water injector.

The dosing tank appearance divide into squarely and circularly, and the material is Polyethylene (PE), through rotational moulding technique one shot forming, and the mounted position of measuring pump and mixer has been predetermine on upper portion, and mixer, dosing tank, measuring pump are trinity, and it is very convenient to use.

However, after chemical particles are stirred and mixed by the stirring mechanism for feeding chemical agents in the existing water treatment to form chemical agents, when the stirring blade is separated from the stirring cylinder, the stirring blade is generally separated from the chemical agents in advance, and in the separation process, the stirring blade needs to be in full contact with the chemical agents in the stirring process due to the large area of the stirring blade, and when the stirring blade is separated from the stirring cylinder, part of the chemical agents are carried on the stirring blade, so that the waste of the chemical agents is further caused, and meanwhile, due to the corrosivity of the chemical agents, the chemical agents are attached to the stirring blade, so that the contact between workers and the chemical agents is easily caused.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: provides a stirring mechanism for feeding chemical agents in water treatment, which aims to solve the problems in the prior art.

The technical scheme is as follows: a stirring mechanism for putting chemical agent in water treatment comprises:

the lifting assembly, and a second stirring mechanism and a first stirring mechanism which are connected with the lifting assembly in a sliding manner;

the second stirring mechanism and the first stirring mechanism are provided with two groups of same units symmetrically, and each group of same units comprises a displacement component in sliding connection with the lifting component and a stirring cylinder in plug-in connection with the displacement component; a stirring shaft is arranged in the deflection component;

the mixing drum comprises a drum wall fixedly connected with the displacement component, a drum frame fixedly connected with the drum wall, a mixing shaft inserted in the drum frame, a mixing paddle and a mixing vertical blade fixedly connected with the mixing shaft, and a flow hole formed in the mixing paddle and the mixing vertical blade; the mixing paddle and the mixing vertical blade are fixedly arranged on a mixing shaft at an angle of 90 degrees; the mixing shaft is a hollow mixing shaft, and a rectangular notch is formed in the mixing shaft; the mixing shaft is matched with the stirring shaft; the stirring shaft is inserted in the mixing shaft,

in a further embodiment, the lifting assembly comprises a lifting frame arranged below the second stirring mechanism and the first stirring mechanism, a lifting upright column fixedly connected with the lifting frame, a lifting input motor fixedly mounted on the lifting upright column, a lifting rotating shaft inserted in the lifting input motor, a lifting rotating wheel sleeved on the lifting rotating shaft, a lifting driving wheel in transmission connection with the lifting rotating wheel, a lifting transmission shaft inserted in the lifting driving wheel, a chain gear sleeved on the lifting transmission shaft, and a lifting chain sleeved on the chain gear; lifting frame's below fixed mounting has the gyro wheel, designs lifting unit mainly in order to change the height of first rabbling mechanism and second rabbling mechanism, and then conveniently carries out and increase the stirring material in first rabbling mechanism and the second rabbling mechanism, and then accomplishes the stirring mixing work to the chemical agent.

In a further embodiment, a plurality of groups of lifting guide rods are fixedly arranged on the lifting frame; one side of the lifting chain is connected with the first stirring mechanism, and the other side of the lifting chain is connected with the second stirring mechanism; and a transmission chain is arranged between the lifting transmission wheel and the lifting rotating wheel.

In a further embodiment, the shifting assembly comprises a shifting base fixedly connected with the lifting chain, a shifting sliding sleeve fixedly arranged on the shifting base, a shifting guide rod inserted in the shifting sliding sleeve, a deflection frame fixedly connected with the deflection guide rod, a stirring motor fixedly arranged on the deflection frame, a stirring shaft inserted with the stirring motor, a stirring drum arranged below the stirring shaft, a deflection motor fixedly arranged on the deflection base, a deflection input shaft inserted with the deflection motor, an input gear sleeved with the deflection input shaft, and a deflection gear meshed with the input gear, and a modified screw rod inserted in the modified gear, wherein the modified component is designed to drive the stirring shaft to be inserted in the mixing shaft, and then the stirring shaft drives the mixing shaft to rotate, and then the stirring and mixing work of the chemical agent is completed.

In a further embodiment, one end of the displacement screw rod is fixedly connected with the displacement frame; and a lifting sliding sleeve sleeved with a lifting guide rod is arranged below the displacement base.

Has the advantages that: the utility model discloses a water treatment puts in rabbling mechanism for chemical agent, the subassembly that will shift is the grafting mode with the churn design, through pegging graft (mixing) shaft and mixing shaft, and then make the (mixing) shaft drive the mixing shaft and rotate, and then drive by the mixing shaft and mix the paddle and rotate with mixing the vertical leaf, and then accomplish the stirring mixing action to the chemical agent, will mix the paddle and mix the vertical leaf design in the churn, and then when the (mixing) shaft need go on breaking away from with the churn, only need take out from the (mixing) shaft can, and then replace the tradition and need take out the mode of leaving the paddle, and then avoid taking out from the great part with chemical agent area of contact, and then reduce the chemical agent that adheres to on the part and taken out by the pump.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of the lifting assembly of the present invention.

Fig. 3 is a schematic view of a first stirring mechanism of the present invention.

Fig. 4 is a schematic view of the mixing drum of the present invention.

The reference signs are: the device comprises a lifting component 51, a roller 511, a lifting frame 512, a lifting upright 513, a lifting guide rod 514, a lifting chain 515, a lifting transmission shaft 516, a lifting transmission wheel 517, a transmission chain 518, a lifting rotating wheel 519, a lifting rotating shaft 520, a lifting input motor 521, a first stirring mechanism 53, a stirring motor 531, a stirring shaft 532, a stirring drum 533, a drum wall 5331, a drum frame 5332, a flow hole 5333, a mixing blade 5334, a mixing upright 5335, a mixing shaft 5336, a displacement motor 534, a displacement gear 535, a displacement screw 536, a lifting sliding sleeve 537, a displacement base 538, a displacement sliding sleeve 539, a displacement guide rod 540, a displacement frame 541 and a second stirring mechanism 54.

Detailed Description

Through research and analysis of the applicant, the reason for the problem (after the existing chemical agent stirring mechanism stirs the chemical agent, when the paddle is separated from the chemical agent, the chemical agent is attached to the paddle) is that after the existing chemical agent is added to the water treatment, the stirring mechanism stirs and mixes chemical particles to form the chemical agent, when the stirring paddle is separated from the stirring barrel, the stirring paddle is generally separated from the chemical agent in advance, and in the separation process, because the area of the stirring paddle is large, the stirring paddle needs to be fully contacted with the chemical agent in the stirring process, and when the stirring paddle is separated from the stirring barrel, the stirring paddle is connected with a part of the chemical agent, so that the waste of the chemical agent is caused, and because the chemical agent has corrosivity, the chemical agent is attached to the stirring paddle and is also easy to cause the contact of workers and the chemical agent, and the utility model discloses to shift subassembly and churn design for the grafting mode, through pegging graft (mixing) shaft and mixing shaft, and then make the (mixing) shaft drive the mixing shaft and rotate, and then drive the mixed paddle leaf by the mixing shaft again and mix and found the leaf and rotate, and then accomplish the stirring mixing action to the chemical agent, will mix the paddle leaf and mix and found the leaf design in the churn, and then when the (mixing) shaft need go on and break away from with the churn, only need take out from the (mixing) shaft can, and then replace the tradition need take out the mode of leaving the paddle, and then avoid taking out from the great part with chemical agent area of contact, and then reduce the chemical agent that adheres to on the part and taken out by the pump.

A stirring mechanism for putting chemical agent in water treatment comprises: the device comprises a lifting component 51, a roller 511, a lifting frame 512, a lifting upright 513, a lifting guide rod 514, a lifting chain 515, a lifting transmission shaft 516, a lifting transmission wheel 517, a transmission chain 518, a lifting rotating wheel 519, a lifting rotating shaft 520, a lifting input motor 521, a first stirring mechanism 53, a stirring motor 531, a stirring shaft 532, a stirring drum 533, a drum wall 5331, a drum frame 5332, a flow hole 5333, a mixing blade 5334, a mixing upright 5335, a mixing shaft 5336, a displacement motor 534, a displacement gear 535, a displacement screw 536, a lifting sliding sleeve 537, a displacement base 538, a displacement sliding sleeve 539, a displacement guide rod 540, a displacement frame 541 and a second stirring mechanism 54.

Wherein the second stirring mechanism 54 and the first stirring mechanism 53 are in contact with the: the elevator assembly 51 is slidably connected.

The second stirring mechanism 54 and the first stirring mechanism 53 are two groups of symmetrically arranged same units, and each group of same units comprises: a shifting component connected with the lifting component 51 in a sliding way, and a stirring cylinder 533 inserted with the shifting component; a stirring shaft 532 is arranged in the deflection component;

the mixing drum 533 comprises a drum wall 5331 fixedly connected with the displacement component, a drum frame 5332 fixedly connected with the drum wall 5331, a mixing shaft 5336 inserted into the drum frame 5332, a mixing blade 5334 and a mixing vertical blade 5335 fixedly connected with the mixing shaft 5336, and a flow hole 5333 arranged on the mixing blade 5334 and the mixing vertical blade 5335; the mixing blades 5334 and the mixing vertical blades 5335 are fixedly arranged on a mixing shaft 5336 in an angle of 90 degrees with each other; the mixing shaft 5336 is a hollow mixing shaft 5336, and a rectangular notch is formed in the mixing shaft 5336; the mixing shaft 5336 is matched with the stirring shaft 532; the stirring shaft 532 is inserted into the mixing shaft 5336,

the following steps: the lifting assembly 51 comprises a lifting frame 512 arranged below the second stirring mechanism 54 and the first stirring mechanism 53, a lifting upright post 513 fixedly connected with the lifting frame 512, a lifting input motor 521 fixedly arranged on the lifting upright post 513, a lifting rotating shaft 520 inserted in the lifting input motor 521, a lifting rotating wheel 519 sleeved on the lifting rotating shaft 520, a lifting driving wheel 517 in transmission connection with the lifting rotating wheel 519, a lifting transmission shaft 516 inserted in the lifting driving wheel 517, a chain gear sleeved on the lifting transmission shaft 516 and a lifting chain 515 sleeved on the chain gear; the lower part of lifting frame 512 is fixedly provided with a roller 511, and the design is as follows: the lifting assembly 51 is mainly used for changing the heights of the first stirring mechanism 53 and the second stirring mechanism 54, so that materials are conveniently stirred in the first stirring mechanism 53 and the second stirring mechanism 54, and then the stirring and mixing work of chemical agents is completed.

A plurality of groups of lifting guide rods 514 are fixedly arranged on the lifting frame 512; one side of the lifting chain 515 is connected with the first stirring mechanism 53, and the other side of the lifting chain 515 is connected with the second stirring mechanism 54; a transmission chain 518 is arranged between the lifting transmission wheel 517 and the lifting rotating wheel 519.

The deflection component comprises a deflection base 538 fixedly connected with the lifting chain 515, a deflection sliding sleeve 539 fixedly arranged on the deflection base 538, a deflection guide rod 540 inserted in the deflection sliding sleeve 539, a deflection frame 541 fixedly connected with the deflection guide rod 540, a stirring motor 531 fixedly arranged on the deflection frame 541, a stirring shaft 532 inserted in the stirring motor 531, a stirring barrel 533 arranged below the stirring shaft 532, a deflection motor 534 fixedly arranged on the deflection base 538, a deflection input shaft inserted in the deflection motor 534, an input gear sleeved on the deflection input shaft, a deflection gear 535 meshed with the input gear, and a deflection screw 536 inserted in the deflection gear 535, and is designed mainly for driving the stirring shaft 532 to be inserted in the mixing shaft 5336 so that the stirring shaft 532 drives the mixing shaft 5336 to rotate, thereby completing the stirring and mixing work of the chemical agent.

One end of the displacement screw 536 is fixedly connected with the displacement frame 541; and a lifting sliding sleeve 537 sleeved with the lifting guide rod 514 is arranged below the shifting base 538.

Description of the working principle: at this time, the chemical agent put in the first stirring mechanism 53 is stirred and mixed by the first stirring mechanism 53, at this time, the chemical agent and water are put in the stirring cylinder 533, at this time, the shift motor 534 works to drive the shift input shaft to rotate, further the input gear is driven to rotate, further the shift gear 535 is driven to rotate, further the shift lead screw 536 is driven to move downwards, further the shift frame 541 is driven to move downwards, further the stirring motor 531 is driven to move downwards, further the stirring shaft 532 is driven to insert and connect the mixing shaft 5336, at this time, the stirring motor 531 rotates, further the stirring shaft 532 is driven to rotate, further the mixing shaft 5336 rotates, further the mixing paddle 5334 and the mixing vertical blade 5335 are driven to rotate, further the chemical agent in the stirring cylinder 533 is driven to be fully mixed with the water, at this time, since the mixing blade 5334 and the mixing upright leaf 5335 are provided with the flow hole 5333, the mixed liquid formed by the chemical agent and the water moves through the flow hole 5333, when the mixed liquid on one side of the mixing blade 5334 and the mixing upright leaf 5335 flows into the other side through the flow hole 5333, a short gap is formed on one side of the mixing blade 5334 and the mixing upright leaf 5335, the mixed liquid on the periphery of one side of the mixing blade 5334 and the mixing upright leaf 5335 supplements the gap, the mixing blade 5334 and the mixed liquid on one side of the mixing upright leaf 5335 are driven to be fully mixed, and the flow hole 5333 is designed to cut part of the chemical particles in the chemical agent in the mixed liquid passing through the flow hole 5333, so that the chemical agent and the water are fully mixed.

The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, however, the present invention is not limited to the details of the above embodiments, and the technical concept of the present invention can be modified to perform various equivalent transformations, which all belong to the protection scope of the present invention.

Claims (5)

1. The utility model provides a water treatment is put in rabbling mechanism for chemical agent, characterized by includes:

the lifting assembly, and a second stirring mechanism and a first stirring mechanism which are connected with the lifting assembly in a sliding manner;

the second stirring mechanism and the first stirring mechanism are provided with two groups of same units symmetrically, and each group of same units comprises a displacement component in sliding connection with the lifting component and a stirring cylinder in plug-in connection with the displacement component; a stirring shaft is arranged in the deflection component;

the mixing drum comprises a drum wall fixedly connected with the displacement component, a drum frame fixedly connected with the drum wall, a mixing shaft inserted in the drum frame, a mixing paddle and a mixing vertical blade fixedly connected with the mixing shaft, and a flow hole formed in the mixing paddle and the mixing vertical blade; the mixing paddle and the mixing vertical blade are fixedly arranged on a mixing shaft at an angle of 90 degrees; the mixing shaft is a hollow mixing shaft, and a rectangular notch is formed in the mixing shaft; the mixing shaft is matched with the stirring shaft; the stirring shaft is inserted and connected with the mixing shaft.

2. The stirring mechanism for adding chemical agents in water treatment of claim 1, wherein: the lifting assembly comprises a lifting frame arranged below the second stirring mechanism and the first stirring mechanism, a lifting upright column fixedly connected with the lifting frame, a lifting input motor fixedly arranged on the lifting upright column, a lifting rotating shaft inserted in the lifting input motor, a lifting rotating wheel sleeved on the lifting rotating shaft, a lifting driving wheel in transmission connection with the lifting rotating wheel, a lifting transmission shaft inserted in the lifting driving wheel, a chain gear sleeved on the lifting transmission shaft and a lifting chain sleeved on the chain gear; and a roller is fixedly arranged below the lifting frame.

3. The stirring mechanism for adding chemical agent in water treatment as claimed in claim 2, wherein: a plurality of groups of lifting guide rods are fixedly arranged on the lifting frame; one side of the lifting chain is connected with the first stirring mechanism, and the other side of the lifting chain is connected with the second stirring mechanism; and a transmission chain is arranged between the lifting transmission wheel and the lifting rotating wheel.

4. The stirring mechanism for adding chemical agents in water treatment of claim 3, wherein: the shifting assembly comprises a shifting base fixedly connected with a lifting chain, a shifting sliding sleeve fixedly mounted on the shifting base is inserted into a shifting guide rod of the shifting sliding sleeve, a shifting frame fixedly connected with the shifting guide rod is fixedly mounted on the shifting frame, a stirring motor is fixedly mounted on the shifting frame, the stirring shaft of the stirring motor is arranged on a stirring barrel below the stirring shaft, and the shifting motor is fixedly mounted on the shifting base and inserted into a shifting input shaft of the shifting motor, and the shifting input shaft is sleeved with an input gear of the shifting input shaft, and is engaged with a shifting gear of the input gear and inserted into a shifting lead screw of the shifting gear.

5. The stirring mechanism for adding chemical agent in water treatment as claimed in claim 4, wherein: one end of the displacement screw rod is fixedly connected with the displacement frame; and a lifting sliding sleeve sleeved with a lifting guide rod is arranged below the displacement base.

Images