CN218307963U - One set of preparation facilities of production micro molecule polysilica pore throat dredging agent - Google Patents

Abstract

The utility model belongs to the technical field of dredging agent preparation, specifically be one set of preparation facilities of producing small molecule polysilicone pore throat dredging agent, can effectively defoaming and can material saving's small molecule polysilicone pore throat dredging agent processing equipment in the material mixing process, its scheme specifically includes the cauldron body, charge door and driving motor on top cap and the top cap are installed to the top of the cauldron body, driving motor's output is installed the stirring subassembly, the stirring subassembly is including installing in the driving motor output and rotating the puddler of installation with the top cap, install two sets of (mixing) shafts that distribute about being on the puddler, all rotate on two (mixing) shafts and install stirring wind automobile body, movable mounting has body defoaming piece on the puddler, the one end of body defoaming piece is provided with the sliding sleeve that sets up with the puddler slides from top to bottom, be provided with the guide with sliding sleeve looks adaptation on the puddler.

Description

One set of preparation facilities of production micro molecule polysilica pore throat dredging agent

Technical Field

The utility model relates to a dredging agent preparation technical field specifically is one set of production micro molecule poly silicon pore throat dredging agent and can be in the short time fully mix the material and the preparation facilities of effective defoaming in the mixing process.

Background

The micromolecule polysilicon pore throat dredging agent is a pipeline dredging agent, has the function of dredging blockage caused by various organic substances such as grease, hair, vegetable residues, paper cotton fibers and the like in a kitchen and toilet pipeline, and has the effects of clearing pipeline stink, killing pipeline bacteria, parasites and the like. The production mode of general micromolecule polysilicone pore throat dredging agent is to carry out the inside intensive mixing stirring processing of reation kettle with required raw materials, because add in the raw materials and add thickening agent, final dredging agent is thick form generally, and the bubble appears in the stirring in-process will probably, and this bubble is difficult to automatic elimination, makes it to remain inside reation kettle at last, causes the waste of raw materials.

Disclosure of Invention

The utility model aims at solving the problem of insufficiency in the prior art, so provide one set of preparation facilities of producing small molecule poly silicon pore throat dredging agent, can effectively defoaming and can the raw materials of practicing thrift small molecule poly silicon pore throat dredging agent processing equipment in the material mixing process.

In order to realize the purpose, the utility model adopts the following technical scheme:

one set of preparation facilities of production micro molecule polysilicone hole larynx dredging agent, including the cauldron body, charge door and driving motor on top cap and the top cap are installed to the top of the cauldron body, the stirring subassembly is installed to driving motor's output, the stirring subassembly including install in the driving motor output and with the puddler of top cap rotation installation, install two sets of (mixing) shafts that are distribution from top to bottom on the puddler, all rotate on two (mixing) shafts and install stirring wind automobile body, movable mounting has body defoaming spare on the puddler, the one end of body defoaming spare is provided with the sliding sleeve that slides about with the puddler and set up, be provided with the guide with sliding sleeve looks adaptation on the puddler.

Drive the stirring subassembly through driving motor and can carry out about the raw materials with the mixing stirring of circumference, improve and mix stirring efficiency, save stirring time and realize energy-conservation, stir the subassembly simultaneously and can drive the rotation of body defoaming piece rotating at the rotation in-process, carry out defoaming treatment to the bubble that produces in its mixing process. What traditional production facility adopted is that conventional stirring piece stirs, because there is the thickener in the raw materials, if the thickener adopts simple circumference stirring mode, emulsification needs for a long time, adopts the stirring subassembly of this scheme can also stir from top to bottom when the circumference stirs, more does benefit to the mixture after the emulsification treatment of thickener.

In the scheme of the application, the improvement is made in that the stirring windmill body comprises a sleeve body which is rotatably arranged relative to the stirring shaft and a plurality of stirring bodies which are arranged outside the sleeve body and are distributed at equal intervals in the circumferential direction.

In the scheme of the application, the improvement is that the foam facing side of the floating body foam removing piece is provided with a plurality of foam breaking pointed bodies.

In the scheme of the application, the improvement is that a plurality of defoaming rollers with foam breaking needle bodies on the surfaces are uniformly distributed on the floating body defoaming piece.

Make following improvement in this application scheme, the cauldron body is still including installing in the liquid reserve tank of top cap upper surface, and the lower surface mounting of top cap has a plurality of to install the flow valve through the pipeline on shower nozzle and the pipeline of the inside intercommunication of liquid reserve tank. Utilize the shower nozzle to carry out the ration and spray the raw materials and go on, in the cooperation about and the stirring mode of circumference, more do benefit to and carry out the hybrid processing of raw materials in the short time.

Make following improvement in this application scheme, the bottom of the cauldron body is provided with the bin outlet, and bin outlet department installs the ooff valve. The dredging agent is discharged from the bottom of the kettle body through a discharge port and a switch valve and is treated into a canning container.

Make following improvement in this application scheme, install on the puddler and be used for clearing up the wall spare of scraping of cauldron body inner wall liquid, and scrape the top of wall spare and extend to lay towards the puddler direction of rotation front side. Through the special structure setting of scraping the wall spare, more do benefit to inside dredging agent and clear away, save raw materials cost.

Compared with the prior art, the utility model discloses possess following beneficial effect:

the utility model discloses a driving motor drives the stirring subassembly and can carry out about multiple raw materials with the mixed stirring of circumference, improves and mixes stirring efficiency, saves the churning time, realizes energy-conservation, and the stirring subassembly can drive the rotation of body defoaming piece rotating at the rotation in-process simultaneously, carries out the defoaming to the bubble that produces in its mixing process and handles. What traditional production facility adopted is that conventional stirring piece stirs, because there is the thickener in the raw materials, if the thickener adopts simple circumference stirring mode, emulsification needs for a long time, adopts this scheme stirring subassembly can also stir from top to bottom when the circumference stirring, more does benefit to the mixture after the emulsification treatment of thickener.

Drawings

Fig. 1 is a schematic view of an overall structure of an embodiment of the present invention;

fig. 2 is a schematic view of the overall structure of an embodiment of the present invention;

FIG. 3 is a bottom view of the top cap structure of the embodiment shown in FIG. 2;

FIG. 4 is a view showing the connection between the defoaming member and the guide member of the float in one embodiment;

FIG. 5 is a partial schematic view of the embodiment of FIG. 4 showing the configuration of the float defoaming member;

FIG. 6 is a drawing showing the connection between the float defoaming member and the guide member in one embodiment;

fig. 7 is a schematic view of the overall structure of an embodiment of the present invention;

fig. 8 is a schematic view of the overall structure of an embodiment of the present invention;

fig. 9 is a side view of the stirring windmill body according to the embodiment of the present invention.

In the figure: 10. a kettle body; 20. a top cover; 30. a feed inlet; 40. a drive motor; 50. a stirring rod; 51. a stirring shaft; 52. a stirring windmill body; 521. a sleeve body; 522. a stirring body; 53. a float defoamer; 531. a sliding sleeve; 532. a guide member; 533. defoaming rollers; 60. a liquid storage tank; 61. a spray head; 70. a discharge outlet; 80. and a wall scraping member.

Detailed Description

Example 1: as shown in fig. 1, a set of preparation facilities for producing small molecule polysilicon pore throat dredging agent, including the kettle body 10, top cap 20 and charge door 30 and driving motor 40 on top cap 20 are installed to the top of kettle body 10, the stirring subassembly is installed to driving motor 40's output, the stirring subassembly is including installing in driving motor 40 output and with top cap 20 rotation installation's puddler 50, install two sets of (mixing) shafts 51 that are upper and lower distribution on the puddler 50, all rotate on two (mixing) shafts 51 and install stirring windmill body 52, movable mounting has float defoaming piece 53 on the puddler 50, the one end of float defoaming piece 53 is provided with the sliding sleeve 531 that slides the setting from top to bottom with puddler 50, be provided with the guide 532 with sliding sleeve 531 looks adaptation on the puddler 50. The floating body defoaming piece 53 is made of a material capable of floating on the tops of the raw materials, or a hollow structure is adopted to arrange the material floating to the upper layer of the liquid level, and a defoaming structure is arranged on the hollow structure. The guide 532 has a cross-shaped structure and can slide only in the height direction with respect to the sliding sleeve 531 without rotating relative thereto.

When the mixing kettle is used, various raw materials are added into the kettle body 10 at one time, then the driving motor 40 is started to drive the stirring rod 50 and the stirring shaft 51 to rotate, in the process that the stirring shaft 51 rotates on the horizontal plane, the stirring fan body 52 can be driven to rotate in the vertical plane to realize vertical mixing and stirring, and in sum, a stirring mode that circumferential mixing and upper and lower layer mixing can be carried out is realized, so that a thickening agent is conveniently and quickly emulsified, all the component raw materials are fully mixed, the mixing time is shortened, energy is saved, consumption is reduced, and meanwhile, the driving motor 40 can select a variable frequency motor, so that the effect is better; the stirring rod 50 rotates and simultaneously can drive the floating body defoaming piece 53 to rotate along with the floating body defoaming piece, and simultaneously can perform height adjustment required by defoaming treatment on bubbles at the top of the liquid level according to the height of the liquid level, and the height adjustment is performed through the sliding sleeve 531 and the guide piece 532 on the stirring rod 50.

Example 2: as shown in fig. 9, on the basis of the above embodiment, an improvement is made in that the stirring wind body 52 includes a sleeve 521 rotatably mounted relative to the stirring shaft 51 and a plurality of stirring bodies 522 mounted outside the sleeve 521 and distributed at equal intervals in the circumferential direction, and the stirring bodies 522 are T-shaped, so that when the stirring shaft 51 rotates, the stirring wind body 52 is driven to rotate on the horizontal plane, and the stirring bodies 522 rotate while receiving resistance due to the resistance, and the stirring bodies 522 and the sleeve 521 can rotate with the stirring shaft 51 as a rotation axis due to the resistance, so that the upper and lower layers of raw materials can be mixed during rotation, and the mixing efficiency is greatly improved.

Example 3: on the basis of the above embodiment, an improvement is made in that the bottom of the kettle body 10 is provided with a discharge opening 70, a switch valve is installed at the discharge opening 70, and the discharge and canning treatment is facilitated through the discharge opening 70 at the bottom and the switch valve.

Example 4: as shown in fig. 8 and 7, on the basis of the above embodiment, a modification is made in that the stirring rod 50 is provided with a wall scraping member 80 for cleaning the liquid on the inner wall of the kettle body 10, and the top of the wall scraping member 80 is extended toward the front side against the rotation direction of the stirring rod 50. Set up inside the cauldron body 10 through scraping wall spare 80, through the rotation of puddler 50, and then drive it and scrape wall spare 80 and handle, scrape the top of wall spare 80 and extend to lay facing the direction of rotation of puddler 50, do benefit to and carry the treatment with lateral wall dredging agent down, and then will glue and hang dredging agent on scraping wall spare 80 and dial down the processing, and material saving improves the utilization ratio.

Example 5: as shown in fig. 2 and fig. 3, on the basis of the above embodiment, the kettle body 10 further includes a liquid storage tank 60 mounted on the upper surface of the top cover 20, a plurality of nozzles 61 communicated with the liquid storage tank 60 through pipes are mounted on the lower surface of the top cover 20, and flow valves are mounted on the pipes. Through one of them comparatively dilute solution (for example sodium hydroxide solution) of holding inside the liquid reserve tank 60 with the top, evenly spray its internal solution of cauldron body 10 simultaneously through the rotation of sodium hydroxide at puddler 50, (mixing) shaft 51, stirring fan car body 52, do benefit to the thickener and carry out the intensive mixing with the sodium hydroxide solution at emulsification in-process, further improve mixing efficiency and save raw materials mixing time.

Example 6: as shown in fig. 4 and 5, the structure of the float defoamer 53 is improved on the basis of the above embodiment, and a plurality of foam breaking pointed bodies are arranged on the foam facing side of the float defoamer 53. The whole body of the floating body defoaming piece 53 can be arranged by adopting a sealed hollow structure, so long as the floating body defoaming piece 53 can float on the upper layer of the liquid surface, and only the whole body is provided with the function of self-adaptive adjustment of the energy difference of the liquid surface during stirring and mixing, but also defoaming treatment can be realized. Also can adopt the multistage to pass through the flexible connection node with body defoaming piece 53 (can adopt the thin slice structure of alkali-resisting alloy piece or polytetrafluoroethylene material preparation) and carry out the body that disappears of the body that connects, the bubble sharp body is broken to the cloth of meeting on the body that disappears of body, it floats in the liquid level upper strata to disappear the body through multistage body that disappears, do benefit to the elimination of liquid level upper strata bubble, the body that disappears of multistage body simultaneously can carry out its state of regulation of self-adaptability according to the swirl that the liquid level appears when mixing, and then guarantee its defoaming effect.

Example 7: as shown in fig. 6, a structure of the float defoaming member 53 is modified based on the above embodiments (except embodiment 6), and a plurality of defoaming rollers 533 with foam breaking needle bodies on the surfaces are uniformly distributed on the float defoaming member 53. Float defoaming piece 53 wholly can adopt sealed hollow structure to lay, as long as can make float defoaming piece 53 float in the liquid level upper strata can, it is poor only wholly to set up the liquid level self-adaptation adjusting energy when mixing according to the stirring, rolls at the liquid level top layer at puddler 50 rotation in-process through defoaming roller 533 and carries out the broken wall processing, nevertheless can realize the defoaming and handle yet. Also can adopt the body that disappears of body that the multistage passes through the flexonics node (can adopt the thin slice structure of alkali-resisting alloy piece or polytetrafluoroethylene material preparation) to connect with body defoaming piece 53, all install defoaming roller 533 on every body defoaming body, float in the liquid level upper strata through the body that disappears of multistage body, do benefit to the elimination of liquid level upper strata bubble through defoaming roller 533, the body that disappears of multistage body simultaneously, the vortex that defoaming roller 533 can appear according to the liquid level when mixing carries out its state of adaptive regulation, and then guarantees its defoaming effect.

Claims (7)

1. One set of preparation facilities of production micro molecule polysilicone pore throat dredging agent, a serial communication port, including the cauldron body (10), top cap (20) and charge door (30) and driving motor (40) are installed on top of the cauldron body (10) and top cap (20), the stirring subassembly is installed to the output of driving motor (40), the stirring subassembly is including installing in driving motor (40) output and with top cap (20) stirring rod (50) of rotation installation, install two and be two sets of (51) that distribute from top to bottom on stirring rod (50), all rotate on two (51) and install stirring fan car body (52), movable mounting has body defoaming piece (53) on stirring rod (50), the one end of body defoaming piece (53) is provided with sliding sleeve (531) that slide from top to bottom and set up with stirring rod (50), be provided with guide (532) with sliding sleeve (531) looks adaptation on stirring rod (50).

2. The set of preparation facilities for producing small molecule polysilicon pore throat dredging agent according to claim 1, wherein the stirring wind body (52) comprises a sleeve body (521) rotatably mounted relative to the stirring shaft (51) and a plurality of stirring bodies (522) which are mounted outside the sleeve body (521) and are circumferentially equally spaced.

3. The set of preparation facilities for producing small molecule polysilicon pore throat dredging agent according to claim 1, characterized in that, the foam facing side of the float defoamer (53) is provided with a plurality of foam breaking tips.

4. The set of equipment for preparing small molecule polysilicon pore throat dredging agent according to claim 1, wherein a plurality of defoaming rollers (533) with foam breaking needle bodies on the surface are uniformly distributed on the floating body defoaming member (53).

5. The set of preparation facilities for producing small molecule polysilicon pore throat dredging agent according to claim 1, characterized in that, the kettle body (10) further comprises a liquid storage tank (60) installed on the upper surface of the top cover (20), the lower surface of the top cover (20) is installed with a plurality of spray heads (61) communicated with the inside of the liquid storage tank (60) through pipelines, and the pipelines are installed with flow valves.

6. The set of equipment for preparing the small molecule polysilicon pore throat dredging agent according to claim 1, wherein a discharge outlet (70) is arranged at the bottom of the kettle body (10), and a switch valve is arranged at the discharge outlet (70).

7. The set of preparation facilities for producing small molecule polysilicon pore throat dredging agent according to claim 1, characterized in that, the stirring rod (50) is equipped with a wall scraping member (80) for cleaning the liquid on the inner wall of the kettle body (10), and the top of the wall scraping member (80) is extended and arranged towards the front side along the rotation direction of the stirring rod (50).

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