CN112279939A - Gas induction jet emulsion breaking machine - Google Patents

Abstract

The invention provides a gas-induced injection demulsifying machine which comprises an injection device, a movable platform and a machine frame, wherein the machine frame comprises a first frame, the injection device comprises a pump, a spray gun and a storage barrel, the movable platform comprises a movable platform frame, a first driving device for driving a hot plate to slide along a first guide rail is arranged on the movable platform frame, a glue scraping knife for scraping glue on materials on the hot plate is arranged above the hot plate, and the spray gun is positioned above the hot plate; and the first frame is also provided with a third driving device for driving the platform frame to slide along the second guide rail. The invention utilizes the spray head of the spray gun to spray high-pressure latex and flocculating agent in a sector shape and spray the latex and the flocculating agent on the hot plate, on one hand, emulsion breaking is carried out through mechanical impact, on the other hand, emulsion breaking is carried out by utilizing the heat energy of the hot plate, finally, the flocculating agent is sprayed to ensure that the latex is fully flocculated, and the flocculated latex is scraped off from the hot plate by utilizing the doctor blade, so that the whole emulsion breaking process is automatically completed, and the emulsion breaking and flocculation efficiency is high, the quality is good, no pollution.

Description

Gas induction jet emulsion breaking machine

Technical Field

The invention relates to a gas-induced injection demulsifying machine, belonging to the technical field of rubber processing machinery.

Background

The natural latex is a natural polymer emulsion synthesized by rubber trees through photosynthesis, and the surface of rubber particles in the natural latex is a protective layer formed by charged proteins, lipid and other hydrophilic substances, so that the natural latex can keep a stable colloid state. Thus, the protective action of the surface protective layer of the rubber particles is destroyed or weakened, and the latex may be destabilized and flocculated.

At present, natural latex coagulation mainly includes natural flocculation, microbial flocculation, acid flocculation, inorganic salt flocculation and biological flocculation, wherein flocculation means that suspended particles in water or liquid are gathered and enlarged or form flocs, so that the coagulation of particles is accelerated to achieve the purpose of solid-liquid separation, and the phenomenon or operation is called flocculation.

The existing natural rubber production enterprises continue to carry out large-scale production by using the traditional operation mode of adding acid for flocculation for 6 hours and then washing and dehydrating by using a large amount of clear water. The operation mode firstly needs enough flocculation time and a large-area placing place for solidification and standing for 6 hours, consumes a large amount of water resources, and secondly, the discharged wastewater contains acid water and is difficult to treat, so that the whole production line is difficult to form automatic production.

Therefore, in order to improve the flocculation efficiency of the natural latex and reduce the production cost of rubber, the development of the high-efficiency flocculation device for the natural latex is of great significance.

Disclosure of Invention

In view of the shortcomings of the prior art, the present invention is directed to a gas-induced-injection demulsifying machine, which at least solves the above-mentioned problems of the prior art.

In order to achieve the purpose, the invention is realized by the following technical scheme: a gas-induced injection demulsifying machine comprises an injection device, a movable platform and a machine frame, wherein the machine frame comprises a first framework,

the injection device comprises a pump, a spray gun and a storage barrel, a liquid inlet of the pump is connected with the storage barrel through a pipeline, a liquid outlet of the pump is connected with the spray gun through a pipeline, the pump, the spray gun and the storage barrel are all fixedly arranged on a first frame,

the movable platform comprises a movable platform frame, a first guide rail extending along the horizontal direction is fixedly mounted on the movable platform frame, the hot plate is slidably mounted on the first guide rail, a first driving device for driving the hot plate to slide along the first guide rail is further arranged on the movable platform frame, a glue scraping knife for scraping glue on materials on the hot plate is arranged above the hot plate, a second driving device for driving the glue scraping knife to slide along the direction parallel to the first guide rail is arranged on the movable platform frame, a collector is fixedly mounted at the lower part of the movable platform frame and used for receiving the materials scraped by the glue scraping knife, a dust cover is fixedly mounted at the upper part of the movable platform frame and located above the glue scraping knife, a abdicating hole for a spray gun to penetrate through is formed in the dust cover, and the spray gun extends into the dust cover through the abdicating hole and is located above the hot plate;

the first frame is provided with a second guide rail extending along the vertical direction, the movable platform frame is slidably arranged on the second guide rail, and the first frame is further provided with a third driving device for driving the platform frame to slide along the second guide rail.

The working process of the invention is as follows: the latex and the flocculating agent are conveyed to a pump for pressurization, the high-pressure latex and the flocculating agent are sprayed out in a sector shape by a spray head of a spray gun and are sprayed onto a hot plate, on one hand, demulsification is carried out through mechanical impact, on the other hand, the heat energy of the hot plate is utilized to demulsify, the flocculating agent is sprayed at last to ensure that the latex is fully flocculated, the flocculated latex is scraped off from the hot plate by a doctor blade, and the whole demulsification process is automatically completed.

Optionally, the first driving device includes a first motor, a first lead screw and a first lead screw support, the first lead screw is rotatably mounted on the movable platform frame through the first lead screw support, the first lead screw is parallel to the first guide rail, the first motor is fixedly mounted on the movable platform frame, a threaded hole matched with the first lead screw is formed in the hot plate, the first lead screw is mounted in the threaded hole of the hot plate through a thread, the first lead screw is connected with a motor shaft of the first motor for transmission, the first lead screw is driven by the first motor to rotate in a forward or reverse direction, the hot plate is driven by the first lead screw through a thread to slide horizontally in a two-way manner along the first guide rail, the position of the spray gun is fixed, and the latex flocculant and the hot plate are covered in a whole block in an omnibearing manner through horizontal movement of.

Optionally, the second driving device comprises a second motor, a synchronous belt and belt pulleys, the two ends of the rubber scraper are provided with the synchronous belt, the synchronous belt extends along a direction parallel to the first guide rail, each synchronous belt is sleeved between the two belt pulleys on the corresponding side, at least one belt pulley in the two belt pulleys of each synchronous belt is connected with the second motor through a transmission device, and the two ends of the rubber scraper are fixedly connected with the synchronous belt on the corresponding side. The synchronous belt is driven by the second motor to rotate forwards or backwards, the synchronous belt converts the rotation of the belt wheel into linear motion, the doctor blade is driven by the synchronous belt to translate in two directions, and after the latex is flocculated, the doctor blade is used for scraping glue in the horizontal direction.

Optionally, the third driving device includes a third motor, a second lead screw and a second lead screw support, the second lead screw is rotatably mounted on the first frame through the second lead screw support, the second lead screw is parallel to the second guide rail, the third motor is fixedly mounted on the first frame, a nut for the trapezoidal lead screw is arranged on the movable platform frame, the nut is matched with the second lead screw, the second lead screw is mounted in a threaded hole of the nut for the trapezoidal lead screw through threads, the second lead screw is connected with a motor shaft of the third motor for transmission, the third motor drives the second lead screw to rotate forward or backward, and the second lead screw further drives the platform frame to move up and down along the second guide rail through the threads.

Preferably, the storage vat is including the first storage vat that is used for holding the latex and the second storage vat that is used for holding the flocculating agent, and the inlet of pump passes through pipeline and connects first storage vat and second storage vat simultaneously, and first storage vat and second storage vat link firmly in the both sides of pump. Further preferably, the pipeline connecting the storage barrel and the pump is a high-pressure rubber pipe. Further preferably, the spraying device further comprises a stirring device for stirring the materials in the first storage barrel. Optionally, agitating unit includes agitator base, stirring rake and stirring rake locker, agitator base and first frame fixed connection, and the stirring rake passes through the stirring rake locker and links to each other with the agitator base, and the stirring rake locker can adjust reciprocating and flexible of stirring rake to make the stirring rake be located the particular position of first storage vat. The latex is stirred uniformly by a stirring device so as to facilitate the next step of gas-induced spraying.

Optionally, the pump is a diaphragm pump, and of course, the pump is other conventional liquid delivery pumps.

Optionally, the spray gun is fixedly mounted on the spray gun support, and the spray gun support is fixedly mounted on the first frame. Further optionally, the spray gun is fixed on the spray gun bracket through a binding band.

Optionally, the spray gun comprises a first spray gun and a second spray gun.

The invention has the beneficial effects that:

the latex and the flocculating agent are conveyed to a pump for pressurization, the high-pressure latex and the flocculating agent are sprayed out in a sector shape by a spray head of a spray gun and are sprayed onto a hot plate, on one hand, emulsion breaking is carried out through mechanical impact, on the other hand, emulsion breaking is carried out by utilizing the heat energy of the hot plate, the flocculating agent is sprayed finally to ensure that the latex is fully flocculated, and the flocculated latex is scraped off the hot plate by utilizing a doctor blade, so that the whole emulsion breaking and flocculating process is automatically completed, and the emulsion breaking and flocculating efficiency is high, the quality is good, no pollution.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of a stirring device of the present invention;

FIG. 3 is a schematic structural view of a spraying device of the present invention;

FIG. 4 is a schematic structural diagram of the movable platform of the present invention;

FIG. 5 is a schematic view of another aspect of the movable platform of the present invention;

FIG. 6 is a schematic view of another aspect of the movable platform of the present invention;

FIG. 7 is a schematic view of the frame structure of the present invention;

FIG. 8 is a schematic front view of the present invention;

FIG. 9 is a side view of the present invention;

fig. 10 is a schematic top view of the present invention.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, which are provided for the purpose of giving a thorough understanding of the present disclosure.

It will be understood that when an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. As used herein, the terms "center," "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in an orientation or positional relationship indicated in the drawings for the purpose of convenience and simplicity of description, and are not intended to indicate or imply that the referenced devices or components must be in a particular orientation, constructed and operated in a particular orientation, and are not to be construed as limiting the present invention, which is for purposes of illustration only and is not intended to be in the sole embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Referring to fig. 1-10, the present invention provides a technical solution: a gas induction injection demulsifying machine comprises an injection device 1, a movable platform 3 and a machine frame 4, wherein the machine frame 4 comprises a first frame 29,

as shown in fig. 3, the injection device 1 includes a pump 5, a spray gun and a storage barrel, a liquid inlet of the pump 5 is connected to the storage barrel through a pipeline, a liquid outlet of the pump 5 is connected to the spray gun through a pipeline, the pump 5, the spray gun and the storage barrel are all fixedly disposed on a first frame 29,

as shown in fig. 4-6, the movable platform 3 includes a movable platform frame 18, a first guide rail 16 extending in a horizontal direction is fixedly installed on the movable platform frame 18, a hot plate 15 is slidably installed on the first guide rail 16, a first driving device for driving the hot plate 15 to slide along the first guide rail 16 is further installed on the movable platform frame 18, a doctor blade 14 for scraping glue on the hot plate 15 is installed above the hot plate 15, a second driving device for driving the doctor blade 14 to slide in a direction parallel to the first guide rail 16 is installed on the movable platform frame 18, a collector 19 is fixedly installed on a lower portion of the movable platform frame 18, the collector 19 is used for receiving the material scraped by the doctor blade 14, a dust cover 20 is fixedly installed on an upper portion of the movable platform frame 18, the dust cover 20 is located above the doctor blade 14, a abdicating hole for a spray gun to pass through is formed in the dust cover 20, and the spray gun extends into the dust cover 20 and is located above the hot plate 15;

the first frame 29 is provided with a second guide rail 28 extending along the vertical direction, the movable platform frame 18 is slidably mounted on the second guide rail 28, and the first frame 29 is further provided with a third driving device for driving the movable platform frame 18 to slide along the second guide rail 28.

The working process of the invention is as follows: latex and flocculating agent are carried to pump 5 from the storage vat and are carried out the pressure boost, and the shower nozzle that utilizes the spray gun is the sector blowout with highly compressed latex and flocculating agent to jet on hot plate 15, on the one hand, come to break emulsion through mechanical impact, on the other hand utilizes the heat energy of hot plate 15 to break emulsion, sprays the flocculating agent at last and guarantees that the latex fully flocculates, utilizes doctor blade 14 to scrape flocculated latex off from hot plate 15, accomplishes whole breakdown of emulsion process automatically.

Optionally, the first driving device includes a first motor 17, a first lead screw 21 and a first lead screw support 22, the first lead screw 21 is rotatably mounted on the movable platform frame 18 through the first lead screw support 22, the first lead screw 21 is parallel to the first guide rail 16, the first motor 17 is fixedly mounted on the movable platform frame 18, a threaded hole matched with the first lead screw 21 is formed in the hot plate 15, the first lead screw 21 is mounted in the threaded hole of the hot plate 15 through a thread, the first lead screw 21 is in transmission connection with a motor shaft of the first motor 17, the first lead screw 21 is driven by the first motor 17 to rotate forward or backward, the first lead screw 21 further drives the hot plate 15 to slide horizontally along the first guide rail 16 through a thread, the position of the spray gun is fixed, and the latex and the flocculant are covered on the whole hot plate 15 in an omnibearing manner through the horizontal movement of the hot plate 15.

Optionally, the second driving device includes a second motor 24, a synchronous belt 25 and belt pulleys 26, two ends of the doctor blade 14 are respectively provided with one synchronous belt 25, the synchronous belts 25 extend along a direction parallel to the first guide rail 16, each synchronous belt 25 is sleeved between two belt pulleys 26 on the corresponding side, at least one belt pulley 26 of the two belt pulleys 26 of each synchronous belt 25 is connected with the second motor 24 through a transmission device, and two ends of the doctor blade 14 are respectively fixedly connected with the synchronous belt 25 on the corresponding side. The second motor 24 drives the synchronous belt 25 to run forward or backward, the synchronous belt 25 converts the rotation of the belt wheel 26 into linear motion, the doctor blade 14 is driven by the synchronous belt 25 to move in two directions, and after the latex is flocculated, the horizontal doctor blade is used for scraping the latex.

Optionally, the third driving device includes a third motor 32, a second lead screw 31 and a second lead screw support 27, the second lead screw 31 is rotatably mounted on the first frame 29 through the second lead screw support 27, the second lead screw 31 is parallel to the second guide rail 28, the third motor 32 is fixedly mounted on the first frame 29, a nut 23 for a trapezoidal lead screw matched with the second lead screw 31 is arranged on the movable platform frame 18, the second lead screw 31 is mounted in a threaded hole of the nut 23 for a trapezoidal lead screw through a thread, the second lead screw 31 is in shaft connection transmission with a motor of the third motor 32, the third motor 32 drives the second lead screw 31 to rotate forward or backward, and the second lead screw 31 drives the platform frame 18 to move up and down along the second guide rail 28 through the thread. Optionally, a sliding block 30 is disposed on the second guiding rail 28, and the first frame 29 is fixedly connected to the sliding block 30.

Preferably, the storage barrels comprise a first storage barrel 10 used for containing latex and a second storage barrel 13 used for containing a flocculating agent, a liquid inlet of the pump 5 is connected with the first storage barrel 10 and the second storage barrel 13 through pipelines, and the first storage barrel 10 and the second storage barrel 13 are arranged on two sides of the pump 5. Further preferably, the pipeline connecting the storage barrel and the pump 5 is a high-pressure rubber pipe. Further preferably, the spraying device 1 further comprises a stirring device 2 for stirring the materials in the first storage vat 10. Optionally, as shown in fig. 2, the stirring device 2 includes a stirrer base 9, a stirring paddle 11 and a stirring paddle locker 12, the stirrer base 9 is fixedly connected to the first frame 29, the stirring paddle 11 is connected to the stirrer base 9 through the stirring paddle locker 12, and the stirring paddle locker 12 can adjust the up-down movement and the extension of the stirring paddle 11, so that the stirring paddle 11 is located at a specific position in the first storage tank 10. The latex is stirred evenly by the stirring device 2 so as to facilitate the next step of gas-induced spraying.

Optionally, the pump 5 is a diaphragm pump, and of course, the pump 5 is other conventional liquid delivery pumps.

Optionally, the spray gun is fixedly mounted on the spray gun support 8, and the spray gun support 8 is fixedly mounted on the first frame 29. Further optionally, the spray gun is fixed on the spray gun bracket 8 through a binding band.

Optionally, the lance comprises a first lance 6 and a second lance 7.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may include only a single embodiment, and such description is for clarity only, and those skilled in the art will be able to make the description as a whole, and the embodiments may be appropriately combined to form other embodiments as will be apparent to those skilled in the art.

Claims (10)

1. A gas induction jet demulsification machine is characterized in that: comprises a spraying device, a movable platform and a frame, wherein the frame comprises a first frame,

the injection device comprises a pump, a spray gun and a storage barrel, a liquid inlet of the pump is connected with the storage barrel through a pipeline, a liquid outlet of the pump is connected with the spray gun through a pipeline, the pump, the spray gun and the storage barrel are all fixedly arranged on a first frame,

the movable platform comprises a movable platform frame, a first guide rail extending along the horizontal direction is fixedly mounted on the movable platform frame, the hot plate is slidably mounted on the first guide rail, a first driving device for driving the hot plate to slide along the first guide rail is further arranged on the movable platform frame, a glue scraping knife for scraping glue on materials on the hot plate is arranged above the hot plate, a second driving device for driving the glue scraping knife to slide along the direction parallel to the first guide rail is arranged on the movable platform frame, a collector is fixedly mounted at the lower part of the movable platform frame and used for receiving the materials scraped by the glue scraping knife, a dust cover is fixedly mounted at the upper part of the movable platform frame and located above the glue scraping knife, a abdicating hole for a spray gun to penetrate through is formed in the dust cover, and the spray gun extends into the dust cover through the abdicating hole and is located above the hot plate;

the first frame is provided with a second guide rail extending along the vertical direction, the movable platform frame is slidably arranged on the second guide rail, and the first frame is further provided with a third driving device for driving the platform frame to slide along the second guide rail.

2. The gas-induced injection demulsifying machine of claim 1, wherein: the first driving device comprises a first motor, a first lead screw and a first lead screw support, the first lead screw is rotatably arranged on the movable platform frame through the first lead screw support, the first lead screw is parallel to the first guide rail, the first motor is fixedly arranged on the movable platform frame, a threaded hole matched with the first lead screw is formed in the hot plate, the first lead screw is arranged in the threaded hole of the hot plate through threads, and the first lead screw is connected with a motor shaft of the first motor for transmission.

3. The gas-induced injection demulsifying machine of claim 1, wherein: the second driving device comprises a second motor, a synchronous belt and belt wheels, the two ends of the rubber scraper are provided with the synchronous belt, the synchronous belt extends along the direction parallel to the first guide rail, each synchronous belt is sleeved between the two belt wheels on the corresponding side, at least one belt wheel in the two belt wheels of each synchronous belt is connected with the second motor through a transmission device, and the two ends of the rubber scraper are fixedly connected with the synchronous belt on the corresponding side.

4. The gas-induced injection demulsifying machine of claim 1, wherein: the third driving device comprises a third motor, a second lead screw and a second lead screw support, the second lead screw is rotatably arranged on the first frame through the second lead screw support, the second lead screw is parallel to the second guide rail, the third motor is fixedly arranged on the first frame, a nut for the trapezoidal lead screw matched with the second lead screw is arranged on the movable platform frame, the second lead screw is arranged in a threaded hole of the nut for the trapezoidal lead screw through threads, and the second lead screw is connected with a motor shaft of the third motor for transmission.

5. The gas-induced injection demulsifying machine of claim 1, wherein: the storage vat is including the first storage vat that is used for holding the latex and the second storage vat that is used for holding the flocculating agent, and the inlet of pump passes through the pipeline and connects first storage vat and second storage vat simultaneously.

6. The gas-induced injection demulsifying machine of claim 5, wherein: first storage vat and second storage vat set up the both sides at the pump.

7. The gas-induced injection demulsifying machine of claim 5, wherein: the pipeline connecting the material storage barrel and the pump is a high-pressure rubber pipe.

8. The gas-induced injection demulsifying machine of claim 5, wherein: the injection device further comprises a stirring device for stirring the materials in the first storage barrel.

9. The gas-induced injection demulsifying machine of claim 8, wherein: the stirring device comprises a stirrer base, a stirring paddle and a stirring paddle locker, the stirrer base is fixedly connected with the first frame, and the stirring paddle is connected with the stirrer base through the stirring paddle locker.

10. The gas-induced injection demulsifying machine of claim 1, wherein: the spray gun comprises a first spray gun and a second spray gun, the spray gun is fixedly arranged on a spray gun support, and the spray gun support is fixedly arranged on the first frame.

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