CN216935684U - Alkali-free accelerator dispersion equipment - Google Patents
Alkali-free accelerator dispersion equipment Download PDFInfo
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- CN216935684U CN216935684U CN202220361246.1U CN202220361246U CN216935684U CN 216935684 U CN216935684 U CN 216935684U CN 202220361246 U CN202220361246 U CN 202220361246U CN 216935684 U CN216935684 U CN 216935684U
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Abstract
The utility model relates to an accelerator production facility technical field provides an alkali-free accelerator dispersion equipment, has solved the poor technical problem of dispersion effect of the dispersion equipment of production accelerator among the prior art. The utility model provides a no alkali accelerator dispersion equipment, closes including dispersion section of thick bamboo, the lid that has the dispersion chamber's cover and stirring the agitator of dispersion intracavity medium, be provided with the dispersion muscle on the lateral wall of dispersion section of thick bamboo, the dispersion muscle peg graft in dispersion section of thick bamboo, the lateral wall of dispersion section of thick bamboo is provided with the location the locating plate of dispersion muscle, the dispersion muscle be provided with locating plate complex constant head tank, the one end of dispersion muscle is contradicted the diapire of dispersion section of thick bamboo, the other end of dispersion muscle is contradicted the cover. The medium rotating in the dispersion cavity can be scattered by the dispersion ribs when contacting the dispersion ribs, so that the medium in the dispersion cavity can be effectively mixed, the dispersion performance is improved, and the dispersion efficiency is improved.
Description
Technical Field
The disclosure relates to the technical field of accelerator production equipment, in particular to alkali-free accelerator dispersing equipment.
Background
The emulsification is to disperse one liquid into the second immiscible liquid, the emulsification disperser emulsifies, mixes and disperses the materials to make the fineness of the materials evenly distributed, and the products can reach the emulsification dispersion requirement in a short time through the powerful high-speed shearing function.
In the production process of some alkali-free accelerators, two or more solutions with poor compatibility need to be uniformly mixed, but the emulsification and dispersion effects of a common accelerator stirring kettle or accelerator reaction kettle are not high in efficiency, long in time consumption and not ideal in effect. Therefore, the dispersing device in the prior art has the technical problem of poor dispersing effect.
SUMMERY OF THE UTILITY MODEL
The utility model provides an alkali-free accelerator dispersion equipment, which solves the technical problem that the dispersion equipment for producing accelerators in the prior art has poor dispersion effect.
Some embodiments adopted to solve the above technical problems include:
the utility model provides a no alkali accelerator dispersion equipment, closes including a dispersion section of thick bamboo, the lid that has the dispersion chamber's cover and stirring the agitator of dispersion intracavity medium, be provided with the dispersion muscle on the lateral wall of a dispersion section of thick bamboo, the dispersion muscle peg graft in a dispersion section of thick bamboo, the lateral wall of a dispersion section of thick bamboo is provided with the location the locating plate of dispersion muscle, the dispersion muscle be provided with locating plate complex constant head tank, the one end of dispersion muscle is contradicted the diapire of a dispersion section of thick bamboo, the other end of dispersion muscle is contradicted the cover.
This disclosed technical scheme is through setting up the dispersion muscle, and the dispersion muscle has the turbulent effect, and the medium in the dispersion intracavity realizes rotatoryly, stirring under the effect of agitator, can be broken up by the dispersion muscle when the rotatory medium contact dispersion muscle of dispersion intracavity to can mix the medium in the dispersion intracavity effectively, improve dispersion performance, and improve dispersion efficiency.
In addition, the dispersing ribs are inserted into the dispersing cylinder, and can be conveniently taken out for maintenance, or the dispersing ribs can be conveniently taken out when the dispersing ribs are not needed, so that the dispersing equipment can be used for other purposes, and the performance of the dispersing equipment is optimized.
Preferably, the dispersion muscle is kept away from one side equipartition of locating plate has the blade, the blade pass through the releasable connection mode set up in the dispersion muscle, the thickness that the locating plate was kept away from one side of a dispersion section of thick bamboo is greater than the dispersion muscle with the thickness of one side of a contact of a dispersion section of thick bamboo.
In this scheme, through setting up the blade in one side that the locating plate was kept away from to the dispersion muscle, the blade has the function of further dispersion medium, and the medium in the dispersion section of thick bamboo is rotatory at the effort of agitator, and the blade takes place the turbulent flow when rotatory medium contacts the blade, and then plays dispersion medium's function.
Preferably, the blade comprises at least one three-dimensional curved surface to direct the medium in contact with the blade in at least two directions.
According to the scheme, the blades comprise at least one three-dimensional curved surface, and the blade dispersion medium enables the medium to move towards at least two directions, so that the dispersion capacity of the dispersion equipment is further optimized.
Preferably, the blades are connected with the dispersing ribs through a shaft in a rotating mode, a rolling bearing is arranged between the shaft and the blades, an outer ring of the rolling bearing is in interference connection with the blades, an inner ring of the rolling bearing is in interference connection with the shaft, and the shaft and the dispersing ribs are of an integrated structure.
The blade in the scheme is flexible to rotate, and the performance of the blade is optimized.
Preferably, the blades comprise a center seat, the center seat is provided with an assembly hole matched with the rolling bearing, sheet bodies for guiding media in the dispersion cavity are uniformly distributed on the center seat, and the sheet bodies and the center seat are of an integrated structure.
The blade is easy to process in the scheme, and the manufacturing cost of the blade is reduced.
Preferably, the dispersing ribs are also provided with through holes, and dispersing tablets are arranged in the through holes.
Through setting up the hole body in this scheme, the hole body still has the function of dispersion medium when reducing medium rotation resistance.
Preferably, the dispersible tablet and the dispersing ribs are of an integrated structure.
Preferably, the stirrer comprises a motor, a rotating shaft and a stirring blade, and the motor drives the stirring blade to rotate through the rotating shaft.
The stirrer in the scheme is simple in structure and easy to process, and the use cost of the stirrer is reduced.
Preferably, the motor is fixed on the cylinder cover, the motor is located outside the dispersion cavity, and the cylinder cover is provided with a hole body matched with the rotating shaft.
In the scheme, the motor is fixed on the barrel cover, the motor is located outside the dispersing cavity, the motor is easy to maintain, the medium cannot enter the motor, and the service life of the motor is prolonged.
Preferably, the stirring blade includes a vertical blade for stirring the medium in the dispersion chamber to rotate around the axis of the rotating shaft and an inclined blade for stirring the medium in the dispersion chamber to displace toward the vertical blade, and the two sides of the vertical blade are respectively provided with the inclined blades.
This scheme is through setting up vertical leaf and slope leaf, and the slope leaf has the function to two directions direction media, and the medium by the direction of slope leaf shifts to vertical leaf direction to the stirring ability of vertical leaf has been optimized, and then has optimized dispersion equipment's dispersion ability.
Compared with the prior art, the alkali-free accelerator dispersing equipment provided by the disclosure has the following advantages:
1. through setting up the dispersion muscle, the dispersion muscle has the turbulent effect, and the medium in the dispersion intracavity realizes rotatory, stirring under the effect of agitator, can be broken up by the dispersion muscle when the rotatory medium contact dispersion muscle in the dispersion intracavity to can mix the medium in the dispersion intracavity effectively, improve dispersion quality, and improve dispersion efficiency.
2. The dispersing ribs are inserted into the dispersing cylinder and can be conveniently taken out for maintenance, or the dispersing ribs can be conveniently taken out when the dispersing ribs are not needed, so that the dispersing equipment can be used for other purposes, and the performance of the dispersing equipment is optimized.
3. Through set up the blade in one side that the locating plate was kept away from to the dispersion muscle, the blade has the function of further dispersion medium, and the medium in the dispersion section of thick bamboo is rotatory at the effort of agitator, and the blade takes place the turbulent flow when rotatory medium contacts the blade, and then plays the function of dispersion medium.
4. Through setting up vertical leaf and slope leaf, the slope leaf has the function to two directions direction medium, and the medium by the direction of slope leaf is to vertical leaf direction displacement to the stirring ability of vertical leaf has been optimized, and then the dispersion ability of dispersion equipment has been optimized.
Drawings
For the purpose of explanation, several embodiments of the disclosed technology are set forth in the following drawings. The following drawings are incorporated herein and constitute a part of the detailed description. In some instances, well-known structures and components are shown in block diagram form in order to avoid obscuring the concepts of the subject technology.
Fig. 1 is an exploded view of the present disclosure in a first orientation.
Fig. 2 is an exploded view of the present disclosure in a second orientation.
Fig. 3 is an exploded view of the third aspect of the present disclosure.
Fig. 4 is a schematic view of a scatter bar.
Fig. 5 is an enlarged view of a portion a in fig. 4.
FIG. 6 is a schematic view of a blade.
In the figure:
1. dispersion section of thick bamboo, 11, dispersion chamber, 12, locating plate.
2. And (4) a cylinder cover.
3. Stirrer 31, motor 32, stirring leaf 321, vertical leaf 322, inclined leaf 33, pivot.
4. Dispersing ribs 41, blades 411, a central seat 412, a sheet body 42, through holes 421 and dispersing tablets.
Detailed Description
The specific embodiments illustrated below are intended as descriptions of various configurations of the presently disclosed subject technology and are not intended to represent the only configurations in which the presently disclosed subject technology may be practiced. Specific embodiments include specific details for the purpose of providing a thorough understanding of the presently disclosed subject matter technology. It will be apparent, however, to one skilled in the art that the disclosed subject matter technology is not limited to the specific details shown herein and may be practiced without these specific details.
Referring to fig. 1 to 6, an alkali-free accelerator dispersing device comprises a dispersing cylinder 1 with a dispersing cavity 11, a cylinder cover 2 covering the dispersing cavity 11 and a stirrer 3 stirring a medium in the dispersing cavity 11, wherein dispersing ribs 4 are arranged on the side wall of the dispersing cylinder 1, the dispersing ribs 4 are inserted into the dispersing cylinder 1, a positioning plate 12 for positioning the dispersing ribs 4 is arranged on the side wall of the dispersing cylinder 1, the dispersing ribs 4 are provided with positioning grooves matched with the positioning plate 12, one end of each dispersing rib 4 abuts against the bottom wall of the dispersing cylinder 1, and the other end of each dispersing rib 4 abuts against the cylinder cover 2.
The cylinder cover 2 can be fixed on the dispersing cylinder 1 through screws or bolts, a sealing ring can be arranged between the cylinder cover 2 and the dispersing cylinder 1, and the sealing ring can be adhered to the dispersing cylinder 1 or the cylinder cover 2. The sealing ring mainly has a sealing function and avoids the medium in the dispersion cavity 11 from splashing out.
The positioning plate 12 may be of an integral structure with the dispersing cylinder 1. Since the dispersing ribs 4 can be easily removed, the dispersing cylinder 1 may have other uses after the dispersing ribs 4 are removed, and therefore, the length of the positioning plate 12 protruding out of the dispersing cylinder 1 should be as small as possible. In addition, in order to reduce the influence of performance when the positioning plate 12 is used for other purposes to the dispersing cylinder 1, one side of the positioning plate 12 far away from the side wall of the dispersing cylinder 1 can be set to be a cylindrical structure, that is, one side of the positioning plate 12 far away from the side wall of the dispersing cylinder 1 has an arc-shaped surface.
Referring to fig. 1 to 6, in some embodiments, blades 41 are uniformly distributed on a side of the dispersing rib 4 away from the positioning plate 12, the blades 41 are detachably connected to the dispersing rib 4, and a thickness of the side of the positioning plate 12 away from the dispersing cylinder 1 is greater than a thickness of a side of the dispersing rib 4 contacting the dispersing cylinder 1.
The blade 41 comprises at least one three-dimensional curved surface to direct the medium in contact with the blade 41 in at least two directions.
The blade 41 through the hub rotation connect in dispersion muscle 4, the axle with be provided with antifriction bearing between the blade 41, antifriction bearing's outer lane with blade 41 interference fit connects, antifriction bearing's inner circle with axle interference fit connects, the axle with dispersion muscle 4 formula structure as an organic whole.
The vane 41 comprises a center seat 411, the center seat 411 is provided with an assembly hole matched with the rolling bearing, sheet bodies 412 guiding media in the dispersion cavity 11 are uniformly distributed on the center seat 411, and the sheet bodies 412 and the center seat 411 are of an integrated structure.
The dispersing ribs 4 are also provided with through holes 42, and dispersing tablets 421 are arranged in the through holes 42.
The dispersible tablet 421 and the dispersing ribs 4 are of an integrated structure.
The blades 41 are mainly used to further disperse the medium. Specifically, the better the turbulent effect of the medium in the dispersion chamber 11, the better the dispersion performance, and the higher the dispersion efficiency. The form of the blades 41 is adopted to enable the medium to form a turbulent flow effect, so that the medium in the dispersion cavity 11 has the turbulent flow effect, and meanwhile, the blades 41 also have the function of shearing the medium, and the dispersion capacity of the dispersion equipment is further improved.
Referring to fig. 1 to 3, in some embodiments, the stirrer 3 includes a motor 31, a rotating shaft 33, and a stirring blade 32, and the motor 31 rotates the stirring blade 32 through the rotating shaft 33.
The motor 31 is fixed on the cylinder cover 2, the motor 31 is positioned outside the dispersion cavity 11, and the cylinder cover 2 is provided with a hole body matched with the rotating shaft 33. The motor 31 may be fixed to the cylinder cover 2 by bolts or screws.
The stirring blade 32 comprises a vertical blade 321 for stirring the medium in the dispersion cavity 11 to rotate around the axis of the rotating shaft 33 and an inclined blade 322 for stirring the medium in the dispersion cavity 11 to displace towards the vertical blade 321, and the inclined blades 322 are respectively arranged at two sides of the vertical blade 321.
The vertical blade 321 and the inclined blade 322 may be integrally formed with the rotation shaft 33. The vertical blade 321 and the inclined blade 322 may be detachably connected to the rotation shaft 33.
While the subject matter of the present disclosure and its corresponding details have been described above, it is to be understood that the above description is only illustrative of some embodiments of the subject matter of the present disclosure and that some of the details may be omitted from the detailed description.
In addition, in some of the embodiments disclosed above, there is a possibility that a plurality of embodiments may be combined and implemented, and various combinations are not listed at length. The implementation embodiments can be freely combined according to the requirements when the technical personnel in the field implement the embodiments so as to obtain better application experience.
Other configurations of details or figures may be derived by those skilled in the art in practicing the presently disclosed subject matter, as well as figures, and it will be apparent that such details are within the scope of the presently disclosed subject matter and are covered by the presently disclosed subject matter without departing from the presently disclosed subject matter.
Claims (10)
1. The alkali-free accelerator dispersing equipment comprises a dispersing cylinder with a dispersing cavity, a cylinder cover for covering the dispersing cavity and a stirrer for stirring a medium in the dispersing cavity, and is characterized in that: the side wall of the dispersing cylinder is provided with dispersing ribs which are inserted into the dispersing cylinder, the side wall of the dispersing cylinder is provided with positioning plates for positioning the dispersing ribs, the dispersing ribs are provided with positioning grooves matched with the positioning plates, one end of each dispersing rib abuts against the bottom wall of the dispersing cylinder, and the other end of each dispersing rib abuts against the cylinder cover.
2. The alkali-free accelerator dispersing apparatus according to claim 1, characterized in that: the dispersion muscle is kept away from one side equipartition of locating plate has the blade, the blade pass through the releasable connection mode set up in the dispersion muscle, the locating plate is kept away from the thickness of one side of a dispersion section of thick bamboo is greater than the dispersion muscle with the thickness of one side of a dispersion section of thick bamboo contact.
3. The alkali-free accelerator dispersing apparatus according to claim 2, characterized in that: the blade includes at least one three-dimensional curved surface to direct media in contact with the blade in at least two directions.
4. The alkali-free accelerator dispersing apparatus according to claim 3, characterized in that: the blades are rotatably connected to the dispersing ribs through shafts, rolling bearings are arranged between the shafts and the blades, outer rings of the rolling bearings are in interference connection with the blades, inner rings of the rolling bearings are in interference connection with the shafts, and the shafts and the dispersing ribs are of an integrated structure.
5. The alkali-free accelerator dispersing apparatus according to claim 4, characterized in that: the blade comprises a center seat, the center seat is provided with an assembling hole matched with the rolling bearing, sheet bodies for guiding media in the dispersion cavity are uniformly distributed on the center seat, and the sheet bodies and the center seat are of an integrated structure.
6. The alkali-free accelerator dispersing apparatus according to claim 5, characterized in that: the dispersing ribs are also provided with through holes, and dispersing tablets are arranged in the through holes.
7. The alkali-free accelerator dispersing apparatus according to claim 6, characterized in that: the dispersible tablet and the dispersing ribs are of an integrated structure.
8. The alkali-free accelerator dispersing apparatus according to claim 1, characterized in that: the agitator includes motor, pivot and stirring leaf, the motor passes through the pivot drives the stirring leaf is rotatory.
9. The alkali-free accelerator dispersing apparatus according to claim 8, characterized in that: the motor is fixed on the barrel cover, the motor is located outside the dispersion cavity, and the barrel cover is provided with a hole body matched with the rotating shaft.
10. The alkali-free accelerator dispersing apparatus according to claim 9, characterized in that: the stirring blade comprises a vertical blade for stirring the medium in the dispersion cavity to rotate around the axis of the rotating shaft and an inclined blade for stirring the medium in the dispersion cavity to displace towards the vertical blade, and the two sides of the vertical blade are respectively provided with the inclined blades.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202220361246.1U CN216935684U (en) | 2022-02-22 | 2022-02-22 | Alkali-free accelerator dispersion equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202220361246.1U CN216935684U (en) | 2022-02-22 | 2022-02-22 | Alkali-free accelerator dispersion equipment |
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CN216935684U true CN216935684U (en) | 2022-07-12 |
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CN202220361246.1U Active CN216935684U (en) | 2022-02-22 | 2022-02-22 | Alkali-free accelerator dispersion equipment |
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