CN211677212U

CN211677212U - Salinization material device

Info

Publication number: CN211677212U
Application number: CN201921780877.1U
Authority: CN
Inventors: 莫少峰; 刘建; 王锋斌; 邓伟聪
Original assignee: Foshan City Nanhai Tianfu Technology Co ltd
Current assignee: Foshan City Nanhai Tianfu Technology Co ltd
Priority date: 2019-10-22
Filing date: 2019-10-22
Publication date: 2020-10-16
Anticipated expiration: 2029-10-22

Abstract

The utility model relates to a salinization material device, including throwing material mechanism, change material mechanism, stirring change the rabbling mechanism of material mechanism interior liquid, be located change circulation efflux mechanism in the material mechanism, be used for right change the heating mechanism that the inside liquid of material mechanism goes on heating and include the pipe assembly of a plurality of tubular constructions. The utility model provides a salinization material device, which lifts the powder material through a cantilever crane and conveys the salinization bale to the upper part of a feed opening, so that the powder material falls into the feed opening, manual feeding is not needed, and time and labor are saved; the powder passes through the powder conveying pipe and the feeding port and enters the interior of the cylinder body, the stirring mechanism stirs the interior of the cylinder body, the circulating jet mechanism forms a centrifugal vortex in liquid in the cylinder body, the powder is fully dissolved in the liquid, crystallization is prevented, and the concentration of saline-alkali solution is guaranteed to be within a control range.

Description

Salinization material device

Technical Field

The utility model relates to a textile dye production facility technical field specifically relates to a salinization material device.

Background

During the production for textile dye saline solution, the material package that drops into saline and alkaline bale is inside to be changed the material to saline and alkaline material machine, thereby obtain required saline and alkaline solution, traditional material machine that changes is that the material package that drops into saline and alkaline bale through the manual work drops into material machine inside, make the powder dissolve in cylinder block inside, only stir through rabbling mechanism during the dissolution, can't dissolve the material package completely, especially when containing massive powder in the powder, more can't fully dissolve, the concentration that leads to saline and alkaline solution reduces, thereby influence textile dye's quality. The feeding of the feeder is labor-consuming and time-consuming, the labor intensity of workers is high, and a large amount of dust is generated in the feeding process due to the fact that powder is arranged inside the material bag, and the dust is sucked by the workers and is harmful to health. On the other hand, the concentration control precision of the saline-alkali solution is limited, the quality of the textile dye is affected, and the production requirement cannot be met. Therefore, it is necessary to provide a device for dissolving saline and alkaline materials, which is time-saving, labor-saving, and has high control precision of the concentration of saline and alkaline solution, so as to solve the above problems.

The utility model provides a salinization material device throws material mechanism through automatic to and guarantee the rabbling mechanism that the powder can dissolve completely, throw material labour saving and time saving, and salinization solution concentration control precision is high.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to provide a salinization material device guarantees that the powder can dissolve completely, throws material labour saving and time saving, and salinization solution concentration control accuracy is high.

In order to solve the technical problem, the utility model provides a salinization device, which comprises a feeding mechanism, a material melting mechanism, a stirring mechanism for stirring liquid in the material melting mechanism, a circulating jet mechanism positioned in the material melting mechanism, a heating mechanism for heating the liquid in the material melting mechanism and a pipe assembly comprising a plurality of pipe structures;

the material melting mechanism comprises a cylinder body and a feeding port positioned on the cylinder body, and the feeding mechanism is connected with the feeding port;

the circulating jet mechanism comprises a jet ring pipe and a plurality of jet nozzles positioned on the jet ring pipe, and the jet ring pipes are distributed along the inner wall of the cylinder body;

the jet direction of the jet nozzle is clockwise or anticlockwise, so that a centrifugal vortex is formed inside the liquid inside the cylinder.

Preferably, the feeding mechanism comprises a feeding port positioned on one side of the material melting mechanism, a powder conveying pipe communicated with the feeding port and the material melting mechanism, and a cantilever crane used for suspending powder.

Preferably, a throwing net is further arranged on the feeding port.

Preferably, the powder conveying pipe is obliquely arranged, one end of the powder conveying pipe is connected with the feeding port, and the other end of the powder conveying pipe is connected with the material melting mechanism.

Preferably, the cantilever crane comprises a lifting mechanism, a cantilever connected with the lifting mechanism and a hook slidably connected with the cantilever;

a slide rail is arranged on the cantilever;

the hook comprises a hook body and a sliding block for connecting the hook body and the sliding rail, and the hook body is rotatably connected with the sliding block;

the slider is matched with the slide rail in shape and size and slides along the slide rail.

Preferably, the cylinder body is of a closed box body structure;

the feeding port is positioned at the top of the cylinder body, the height of the feeding port is greater than the height of the liquid level in the cylinder body, and the feeding port is connected with the powder conveying pipe.

Preferably, the stirring mechanism comprises a driving motor, a rotating shaft connected with the driving motor, and a stirring blade at the end of the rotating shaft, and the stirring blade is immersed in the liquid in the cylinder.

Preferably, the circulating jet mechanism further comprises a centrifugal pump, and the centrifugal pump is connected with the jet loop pipe through the pipe structure;

the top of the cylinder body is also provided with an overflow port, the overflow port is connected with the centrifugal pump through a pipe structure, and the centrifugal pump is connected with the jet flow ring pipe through a pipe structure.

Preferably, the jet direction distribution of the jet nozzles is opposite to the rotation direction of the stirring blade.

Preferably, a pneumatic three-way ball valve is further arranged on a pipe structure for communicating the centrifugal pump with the jet flow ring pipe;

a saline-alkali discharging filter is also arranged between the pneumatic three-way ball valve and the jet ring pipe.

Compared with the prior art, the beneficial effects of the utility model reside in that:

1. the utility model provides a salinization material device, which lifts the powder material through a cantilever crane and conveys the salinization bale to the upper part of a feed opening, so that the powder material falls into the feed opening, manual feeding is not needed, and time and labor are saved; the powder passes through the powder conveying pipe and the feeding port and enters the interior of the cylinder body, the stirring mechanism stirs the interior of the cylinder body, the circulating jet mechanism forms a centrifugal vortex in liquid in the cylinder body, the powder is fully dissolved in the liquid, crystallization is prevented, and the concentration of saline-alkali solution is guaranteed to be within a control range.

2. The utility model provides a salt alkalization material device, still be equipped with on the dog-house and throw the net, the powder carries out the prescreening through throwing the net, prevents that bulky cubic powder from getting into the mechanism of changing the material inside, is difficult to dissolve, leads to saline and alkaline solution concentration to descend, so through throwing the concentration that sets up the assurance saline and alkaline solution of net in predetermineeing the within range.

3. The utility model provides a salinization material device, stirring vane immerses the inside of liquid in the cylinder body, the during operation, the driving motor drive rotation axis rotates, and drives stirring vane is rotatory, and rotatory stirring vane makes liquid and powder intensive mixing in the cylinder body.

4. The utility model provides a salt alkaline material device, the jet direction of efflux spout distributes along clockwise or distributes along anticlockwise for the inside liquid of cylinder body can form clockwise centrifugation vortex or anticlockwise centrifugation vortex, and the intensive mixing liquid guarantees that the powder can fully dissolve inside liquid, guarantees that the concentration of salt alkaline solution is at control range.

Drawings

Fig. 1 is a schematic structural diagram of a salinized material device provided by the present invention;

fig. 2 is a schematic view of a partial structure of a salinized material device provided by the present invention;

fig. 3 is a schematic diagram of the internal structure of the partial structure of the salinized material device provided by the present invention;

fig. 4 is the internal structure schematic diagram of the salinization material device provided by the utility model.

Detailed Description

In order to make the technical solution of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings and preferred embodiments.

As shown in fig. 1-4, a salinization device comprises a feeding mechanism 1, a material melting mechanism 2, a stirring mechanism 3 for stirring liquid in the material melting mechanism 2, a circulating jet mechanism 4 located in the material melting mechanism 2, a heating mechanism 5 for heating liquid in the material melting mechanism 2, and a pipe assembly 6 comprising a plurality of pipe structures;

the material melting mechanism 2 comprises a cylinder body 21 and a feeding port 22 positioned on the cylinder body, and the feeding mechanism 1 is connected with the feeding port 22;

the circulating jet mechanism 4 comprises a jet ring pipe 41 and a plurality of jet nozzles 42 positioned on the jet ring pipe 41, and the jet ring pipes are distributed along the inner wall of the cylinder body;

the jet direction of the jet nozzle 42 is in a clockwise direction or a counterclockwise direction, so that a centrifugal vortex is formed inside the liquid inside the cylinder 21.

As shown in fig. 4, the feeding mechanism 1 is used for feeding materials into the material melting mechanism, and includes a feeding port 11 located at one side of the material melting mechanism 2, a powder conveying pipe 12 communicating the feeding port 11 with the material melting mechanism 2, and a cantilever crane 13 for suspending powder.

Dog-house 11 is located one side of changing material mechanism 2, the powder of being convenient for passes through dog-house 11 gets into change material mechanism 2 is inside, in order to prevent that the bold powder from getting into change material mechanism 2 is inside to be difficult to dissolve, still be equipped with on dog-house 11 and throw the net, the powder carries out the prescreening through throwing the net, prevents that bulky cubic powder from getting into inside changing material mechanism, is difficult to dissolve, leads to saline and alkaline solution concentration to descend, so guarantee saline and alkaline solution's concentration through throwing setting up of net and in predetermineeing the within range.

The powder conveying pipe 12 is used for communicating the feeding port 11 with the material melting mechanism 2, one end of the powder conveying pipe 12 is connected with the feeding port 11, the other end of the powder conveying pipe is connected with the material melting mechanism 2, so that powder can conveniently enter the material melting mechanism 2 through the powder conveying pipe 12, the powder conveying pipe 12 is obliquely arranged in order to prevent the powder from being lifted due to collision with the pipe wall of the powder conveying pipe 12 and polluting the surrounding working environment, and therefore the powder slides down along the inclined powder conveying pipe 12, lifted dust is greatly reduced, and the working environment is improved.

The cantilever crane 13 is used for hoisting powder, moving the powder to the position above the feeding port 11, and feeding the powder into the material melting mechanism 2 through the feeding port 11 for melting. The cantilever crane 13 comprises a lifting mechanism 131, a cantilever 132 connected with the lifting mechanism 131 and a hook 133 slidably connected with the cantilever 132, wherein the lifting mechanism 131 is a hydraulic column, an air cylinder or other telescopic structures, the specific structure of the lifting mechanism 131 is specifically set according to actual needs, and the lifting mechanism can drive powder to move up and down.

The cantilever 132 is located at the top of the lifting mechanism 131, when the lifting mechanism 131 is lifted, the cantilever 132 is lifted along with the lifting mechanism 131, and in order to realize slidable connection between the cantilever 132 and the hook 133, a slide rail is arranged on the cantilever 132.

The lifting hook 133 is used for hooking powder and comprises a hook body and a sliding block connected with the hook body and the sliding rail, the hook body is rotatably connected with the sliding block, so that the direction of the hook body and the sliding block can be changed conveniently, the position of the powder is finely adjusted, the sliding block is matched with the sliding rail in shape and size, and under the action of external force, the sliding block slides along the sliding rail, so that the slidable connection between the lifting hook and the cantilever is realized.

In order to facilitate manual emptying or changing the position of the lifting hook, the material feeding mechanism further comprises an operating platform 14, and the operating platform 14 is located below the cantilever 132 and facilitates emptying or other operations performed on the operating platform 14.

As shown in fig. 2, the material melting mechanism 2 is used for melting the powder material conveyed by the material feeding mechanism 1 to form a saline-alkali solution, and includes a cylinder 21 and a material inlet 22 located on the cylinder 21, where the cylinder 21 is used for containing liquid and powder material, so that the powder material and the liquid are fully mixed inside the cylinder to form the saline-alkali solution.

In order to prevent the saline-alkali solution from volatilizing and the powder from being lifted, polluting the surrounding working environment and the health of operators, the cylinder body 21 is of a closed box structure.

The feeding port 22 is located at the top of the cylinder 21, and the height of the feeding port 22 is greater than the liquid level in the cylinder 21, and is connected to the powder conveying pipe 12, so that the powder entering through the feeding port 11 sequentially passes through the powder conveying pipe 12 and the feeding port 22 and enters the cylinder 21.

As shown in fig. 4, the stirring mechanism 3 is used for stirring the liquid in the cylinder 21 to sufficiently mix the powder with the liquid to form a saline-alkali solution, and includes a driving motor 31, a rotating shaft 32 connected to the driving motor 31, and a stirring blade 33 located at the end of the rotating shaft 32, wherein the stirring blade 33 is immersed in the liquid in the cylinder 21, and when the stirring mechanism is in operation, the driving motor 31 drives the rotating shaft 32 to rotate and drives the stirring blade 33 to rotate, and the rotating stirring blade 33 sufficiently mixes the liquid in the cylinder 21 with the powder.

As shown in fig. 3, the circulating jet mechanism 4 is used for making the liquid in the cylinder 21 form a centrifugal vortex, and again, the liquid and the powder in the cylinder 21 can be fully mixed, and includes a jet loop 41 and a plurality of jet nozzles 42 located on the jet loop 41, the jet loop 41 is distributed along the inner wall of the cylinder 21 and is connected to the pipe assembly, the cylinder 21 and the jet loop 41 are communicated through the pipe structure inside the pipe assembly, the liquid forms a circulating loop between the cylinder 21 and the jet loop 41 through the pipe structure, and the liquid and the powder can be fully mixed inside the cylinder 21.

In order to ensure that the liquid can flow circularly, the circulating jet mechanism 4 further comprises a centrifugal pump, and the centrifugal pump is connected with the jet loop pipe 41 through the pipe structure.

Correspondingly, the top of the cylinder body is also provided with an overflow port, the overflow port is connected with the centrifugal pump through a pipe structure, and the centrifugal pump is connected with the jet loop pipe through the pipe structure, so that liquid overflowing through the overflow port is pumped back to the inside of the jet loop pipe by the centrifugal pump and is sprayed into the cylinder body through a jet nozzle on the jet loop pipe.

The jet nozzles 42 are located on the jet ring pipe 41, the number of the jet nozzles is several, the jet nozzles are uniformly distributed on the jet ring pipe 41, and in order to enable the liquid jetted from the jet nozzles 42 to form a centrifugal vortex, the liquid inside the cylinder body 21 is distributed along a clockwise direction or a counterclockwise direction, the liquid inside the cylinder body 21 can form a clockwise centrifugal vortex or a counterclockwise centrifugal vortex, the liquid is fully stirred, the powder can be fully dissolved in the liquid, and the concentration of the saline-alkali solution is ensured to be within a control range.

Preferably, the spraying direction of the spraying nozzles 42 is opposite to the rotating direction of the stirring blade 33, so that the sprayed liquid can fully collide with the liquid in the cylinder 21, and the powder can be fully dissolved again, thereby preventing the liquid from crystallizing.

In order to smoothly adjust the jet speed of the jet nozzle 42, a pneumatic three-way ball valve is further arranged on a pipe structure communicating the centrifugal pump and the jet ring pipe 41, so that the jet speed of the jet nozzle is ensured to be within a preset range.

In order to improve the quality of the saline-alkali solution and reject the impurities in the saline-alkali solution, a saline-alkali discharging filter is further arranged between the pneumatic three-way ball valve and the jet ring pipe and used for filtering the impurities in the saline-alkali solution to ensure the quality of the saline-alkali solution.

Heating mechanism 5 is used for heating the inside liquid of cylinder body 21, guarantees that the temperature of the inside liquid of cylinder body 21 is at predetermined within range, prevents that liquid temperature is too high or low excessively leads to the inside liquid crystallization of cylinder body 21, influences saline and alkaline solution's concentration. Specifically, the heating mechanism 5 is a steam heating plate.

The pipe assembly 6 comprises a plurality of pipe structures, so that external liquid can be conveniently input into the cylinder body 21 through the pipe structures, the saline-alkali solution can be conveniently formed, on the other hand, a circulation loop can be conveniently formed between the cylinder body 21 and the jet loop 41, the liquid in the cylinder body 21 can be ensured to circulate and form a centrifugal vortex, the liquid can be fully mixed, the powder is ensured to be completely dissolved in the liquid, and the liquid crystallization is prevented.

The utility model provides a salt alkalization material device, which lifts the powder material through a cantilever crane 13 and conveys the salt alkalization bale to the upper part of a feed opening 11, so that the powder material falls into the feed opening 11 without manual feeding, time and labor are saved, the powder material does not lift up too much, and the working environment of workers is improved; the powder material enters the cylinder body 21 through the powder material conveying pipe 12 and the feeding port 22, the stirring mechanism 3 stirs the inside of the cylinder body, and the circulating jet flow mechanism 4 forms a centrifugal vortex in the liquid in the cylinder body 21, so that the powder material is fully dissolved in the liquid, crystallization is prevented, and the concentration of a saline-alkali solution is ensured to be within a control range.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations are also considered as the protection scope of the present invention.

Claims

1. A salinization and salinization device is characterized by comprising a feeding mechanism, a material dissolving mechanism, a stirring mechanism for stirring liquid in the material dissolving mechanism, a circulating jet mechanism positioned in the material dissolving mechanism, a heating mechanism for heating the liquid in the material dissolving mechanism and a pipe assembly comprising a plurality of pipe structures;

2. The salination-salination material device of claim 1, wherein the feeding mechanism comprises a feeding port at one side of the salination mechanism, a powder conveying pipe connecting the feeding port and the salination mechanism, and a cantilever crane for suspending powder.

3. The salination-reduction device of claim 2, wherein a feeding net is further provided on the feeding port.

4. The salinization and liquefaction device of claim 2, wherein the powder delivery pipe is inclined and has one end connected to the feed port and the other end connected to the mechanism for salinization.

5. The salination and alkalization device of claim 2, wherein the boom hoist comprises a hoist mechanism, a boom connected to the hoist mechanism, and a hook slidably connected to the boom;

a slide rail is arranged on the cantilever;

6. The salinization device of claim 2, wherein the cylinder is of a closed box structure;

7. The salination-salination device according to claim 1, wherein the stirring mechanism comprises a drive motor, a rotating shaft connected to the drive motor, and a stirring blade at a distal end of the rotating shaft, the stirring blade being immersed within the liquid in the cylinder.

8. The salination-salination material device of claim 1, wherein the circulating jet mechanism further comprises a centrifugal pump, wherein the centrifugal pump is connected with the jet loop pipe through the pipe structure;

9. The salination-salination device of claim 7, wherein the jet nozzles are directed in a direction opposite to the direction of rotation of the stirring blades.

10. The salinization and salinization device of claim 8, wherein a pneumatic three-way ball valve is further arranged on the pipe structure connecting the centrifugal pump and the jet loop pipe;