CN214763488U - Diallyl bisphenol A type epoxy resin ultrasonic stirring device - Google Patents

Abstract

The utility model discloses a diallyl bisphenol A type epoxy resin ultrasonic stirring device relates to the relevant technical field of chemical industry. The utility model discloses a end section of thick bamboo, hold and connect a section of thick bamboo, roof, rotary drum and ultrasonic motor, end section of thick bamboo top is fixed with and holds and connect a section of thick bamboo, and it is provided with the roof to accept a section of thick bamboo top, and the top of roof top central authorities is provided with ultrasonic motor, and roof bottom one side is provided with the rotary drum, and the central authorities at rotary drum top have cup jointed the commentaries on classics post, and commentaries on classics post top is fixed with the roof. The utility model discloses a set up end section of thick bamboo, a bearing section of thick bamboo, roof, rotary drum and ultrasonic motor, solved current diallyl bisphenol A type epoxy agitating unit can't be stable with epoxy and homogenize completely, can't conveniently take out the epoxy after the homogenization and can't get rid of the problem of the bubble that the in-process produced of stirring, make epoxy's stirring homogenization quick and stable, epoxy after the homogenization can take out fast, the bubble that produces among the stirring process can be got rid of well.

Description

Diallyl bisphenol A type epoxy resin ultrasonic stirring device

Technical Field

The utility model belongs to the technical field of the chemistry industry is relevant, especially relate to a diallyl bisphenol A type epoxy supersound agitating unit.

Background

Epoxy resin is a high molecular polymer, the molecular formula is (C11H 12O 3) n, refer to the general name of a polymer containing more than two epoxy groups in the molecule, it is the condensation polymerization product of epichlorohydrin and bisphenol A or polyol, because the chemical activity of epoxy group, can use many compounds containing active hydrogen to make its ring opening, solidify and crosslink and produce the network structure, therefore it is a thermosetting resin, bisphenol A type epoxy resin not only the output is the biggest, the variety is the most complete, and new modified variety is still increasing, the quality is improving continuously, after the epoxy resin is finished producing, need homogenize and stir the resin, make the resin texture homogeneous, greatly increase the homogeneity of the resin, but it still has the following disadvantages in the actual use:

1. the existing diallyl bisphenol A epoxy resin stirring device can only simply stir and homogenize the produced epoxy resin, cannot completely homogenize the epoxy resin, has long stirring time, and easily causes the resin to splash out of a stirring container;

2. after stirring, the existing diallyl bisphenol A epoxy resin stirring device needs to take off a stirring machine to take out the epoxy resin, so that the stirred epoxy resin cannot be taken out conveniently;

3. the conventional diallyl bisphenol A epoxy resin stirring device generates bubbles in the resin during the stirring process, and the bubbles in the resin cannot be removed by the conventional diallyl bisphenol A epoxy resin stirring device.

Therefore, the existing stirring device for diallyl bisphenol a epoxy resin cannot meet the requirement in practical use, so that an improved technology is urgently needed in the market to solve the problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a diallyl bisphenol A type epoxy resin ultrasonic stirring device, through setting up end section of thick bamboo, a receiving section of thick bamboo, roof, rotary drum and ultrasonic motor, solved current diallyl bisphenol A type epoxy resin stirring device can't be stable with epoxy resin and homogenize completely, can't conveniently take out the epoxy resin after the homogenization and can't get rid of the problem of the bubble that the stirring in-process produced.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the utility model relates to a diallyl bisphenol A type epoxy supersound agitating unit, including end section of thick bamboo, hold a section of thick bamboo, roof, rotary drum and ultrasonic motor, end section of thick bamboo top is fixed with and holds a section of thick bamboo, it is provided with the roof to accept a section of thick bamboo top, roof top central authorities' top is provided with ultrasonic motor, roof bottom one side is provided with the rotary drum, the rotary column has been cup jointed to the central authorities at rotary drum top, the rotary column top is fixed with the roof, the utility model discloses an end section of thick bamboo will accept a section of thick bamboo and support subaerial, will need the epoxy of stirring to accept through holding a section of thick bamboo, through the structural cooperation on roof and the rotary drum, support ultrasonic motor in the roof top, produce the stirring through ultrasonic motor and accept the power of epoxy in the section of thick bamboo, carry the holding in the section of thick bamboo through the vibration post on the roof with the power that ultrasonic motor produced.

Furthermore, a vibration motor is fixed at the bottom of the inner part of the bottom barrel, a transmission column is fixed at the output end of the vibration motor, the bottom barrel generates power for vibrating epoxy resin in the bearing barrel through the vibration motor fixed on the bottom barrel, and the power is transmitted to the transmission plate through the transmission column.

Furthermore, the bottom of the inner wall of the bearing cylinder is fixed with a soft bottom plate, the center of the bottom of the soft bottom plate is fixed with a transmission plate, the center of the bottom of the transmission plate is fixed with the top of a transmission column on the bottom cylinder, the bottom of the bearing cylinder is sealed by the soft bottom plate on the bearing cylinder, and power generated by the vibration motor is transmitted to the soft bottom plate through the transmission plate, so that the bearing cylinder is vibrated by epoxy resin borne in the bearing cylinder, and bubbles in the epoxy resin are vibrated out of the bearing cylinder.

Furthermore, the top center of the top plate is provided with a sleeve hole in a penetrating mode, a vibration column is sleeved in the sleeve hole, an ultrasonic conveying column is fixed at the bottom of the vibration column, the top plate conveys power generated by an ultrasonic motor to the ultrasonic conveying column through an output shaft through the vibration column sleeved on the top plate, and epoxy resin in the bearing cylinder is uniformly stirred.

Furthermore, a hinge is fixed on one side, away from the rotating drum, of the top plate, a bearing block is fixed at the bottom of one side, close to the rotating drum, of the hinge, a support column is fixed at the bottom of the bearing block, the top plate supports one side, away from the hinge, of the top plate on the ground through the support column fixed on the bearing block, and the top plate rotates in the horizontal direction through the rotating column sleeved in the rotating drum.

Further, the bottom of ultrasonic motor is fixed with accepts the seat, the bottom surface annular array who accepts the seat is fixed with the fixed column, the pneumatic cylinder has been cup jointed to the bottom of fixed column week side, the pneumatic cylinder bottom all is fixed on the roof, ultrasonic motor's output is fixed with the output shaft, the one end that ultrasonic motor was kept away from to the output shaft is fixed with the vibration post on the roof, and ultrasonic motor goes up and down ultrasonic motor through fixed column and the pneumatic cylinder cooperation on its fixed accepting the seat for output shaft and ultrasonic wave carry the post to go up and down.

The utility model discloses following beneficial effect has:

1. the utility model discloses a set up end section of thick bamboo, the bearing section of thick bamboo, roof ultrasonic motor, the problem that current diallyl bisphenol A type epoxy agitating unit can't be stable with epoxy and homogenize completely has been solved, the bearing section of thick bamboo that supports through end section of thick bamboo accepts epoxy wherein, the vibration post that cup joints on the roof carries the ultrasonic wave on the post with the power that ultrasonic motor produced for the ultrasonic wave is carried in the bearing section of thick bamboo, with epoxy wherein homogenize fast and steadily, greatly increased the efficiency of epoxy homogenization.

2. The utility model discloses a set up and hold a section of thick bamboo, the roof, rotary drum and ultrasonic motor, the problem of the epoxy after the homogenization can't be conveniently taken out to current diallyl bisphenol A type epoxy agitating unit has been solved, carry the power that ultrasonic motor produced through the structure on the roof and hold a section of thick bamboo, with epoxy stirring homogenization wherein, after the stirring is accomplished, will hold piece and support column and roll out, through the rotary drum with wherein changeing the post with the roof changes from holding a section of thick bamboo top, will accept a section of thick bamboo top and expose, make the epoxy in holding a section of thick bamboo can conveniently take out.

3. The utility model solves the problem that the existing diallyl bisphenol A type epoxy resin stirring device can not remove the bubbles generated in the stirring process by arranging the bottom barrel, the bearing barrel, the top plate, the rotary barrel and the ultrasonic motor, and the epoxy resin in the bearing barrel supported by the bottom barrel, after the power on the ultrasonic motor on the top plate is stirred, a certain amount of bubbles are generated in the epoxy resin, the driving plate fixed on the soft bottom plate at the bottom of the bearing cylinder transmits the power generated by the vibrating motor fixed in the bottom cylinder to the bearing cylinder, the soft bottom plate on the bearing cylinder is matched with the transmission plate to transmit power to the epoxy resin in the bearing cylinder, the air bubbles in the homogenized epoxy resin are vibrated out, so that the finally produced epoxy resin has uniform internal texture, and the product quality of the produced epoxy resin is greatly improved.

Of course, it is not necessary for any particular product to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a perspective view of the assembly structure of the present invention;

FIG. 2 is a perspective view of the bottom tube structure of the present invention;

FIG. 3 is a perspective view of the receiving cylinder structure of the present invention;

FIG. 4 is a perspective view of the top plate structure of the present invention;

FIG. 5 is a perspective view of the drum structure of the present invention;

fig. 6 is a perspective view of the ultrasonic motor structure of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

100. a bottom cylinder; 101. a vibration motor; 102. a drive post; 200. a receiving cylinder; 201. a soft bottom plate; 202. a drive plate; 300. a top plate; 301. trepanning; 302. a vibrating column; 303. an ultrasonic transport column; 400. a rotating drum; 401. turning the column; 402. bearing blocks; 403. a hinge; 404. a support pillar; 500. an ultrasonic motor; 501. a bearing seat; 502. an output shaft; 503. fixing a column; 504. and a hydraulic cylinder.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-6, the present invention relates to a diallyl bisphenol a type epoxy resin ultrasonic stirring apparatus, which comprises a bottom cylinder 100, a receiving cylinder 200, a top plate 300, a rotary cylinder 400 and an ultrasonic motor 500, wherein the receiving cylinder 200 is fixed on the top of the bottom cylinder 100, the receiving cylinder 200 is supported on the ground by the bottom cylinder 100, the receiving cylinder 200 limits and supports the structure on the bottom cylinder 100, the top plate 300 is arranged on the top of the receiving cylinder 200, the ultrasonic motor 500 is limited above the receiving cylinder 200 by the top plate 300, the ultrasonic motor 500 is arranged above the center of the top plate 300, the ultrasonic motor 500 generates ultrasonic vibration, the rotary cylinder 400 is arranged on one side of the bottom of the top plate 300, the rotary cylinder 401 is limited in the rotary cylinder 400, the rotary cylinder 401 is sleeved on the center of the top of the rotary cylinder 400, the rotary cylinder 401 is fixed with the top plate 300, the top plate 300 rotates around the rotary cylinder 401 in the horizontal direction by cooperating with the rotary cylinder 400, the top of the rotary column 401 is fixed to the top plate 300.

As shown in fig. 1 and 2, a vibration motor 101 is fixed at the bottom inside a bottom cylinder 100, the vibration motor 101 generates power for vibrating epoxy resin inside a bearing cylinder 200, a transmission column 102 is fixed at an output end of the vibration motor 101, the transmission column 102 transmits the power generated by the vibration motor 101 to the bearing cylinder 200, the bottom cylinder 100 generates power for vibrating epoxy resin inside the bearing cylinder 200 through the vibration motor 101 fixed inside the bottom cylinder 100, and the power generated by the vibration motor 101 is transmitted to a soft bottom plate 201 on the bearing cylinder 200 through the transmission column 102.

As shown in fig. 1 and 3, a soft bottom plate 201 is fixed at the bottom of the inner wall of the bearing cylinder 200, the bottom of the bearing cylinder 200 is sealed by the soft bottom plate 201, a transmission plate 202 is fixed at the center of the bottom of the soft bottom plate 201, the transmission plate 202 transmits the vibration on the transmission column 102 to the soft bottom plate 201, the vibration generated by the vibration motor 101 is transmitted into the bearing cylinder 200, the center of the bottom of the transmission plate 202 is fixed with the top of the transmission column 102 on the bottom cylinder 100, the bearing cylinder 200 transmits the power on the vibration motor 101 transmitted by the transmission plate 202 through the soft bottom plate 201 fixed on the bearing cylinder 200, and the epoxy resin in the vibration bearing cylinder 200 vibrates to vibrate out air bubbles in the resin.

As shown in fig. 1 and 4, a sleeve hole 301 is formed through the top center of the top plate 300, the vibration column 302 is sleeved in the top plate 300 through the sleeve hole 301, the vibration column 302 is sleeved in the sleeve hole 301, an ultrasonic transmission column 303 is fixed at the bottom of the vibration column 302, and the vibration column 302 transmits power on the ultrasonic motor 500 to epoxy resin in the receiving cylinder 200 through the ultrasonic transmission column 303, so that the resin in the receiving cylinder 200 is stirred and homogenized.

As shown in fig. 1 and 5, a hinge 403 is fixed on a side of the top plate 300 away from the drum 400, the hinge 403 connects the top plate 300 and the bearing block 402 together, the bearing block 402 is fixed on a bottom of the hinge 403 close to the drum 400, the bearing block 402 limits the top plate 300 and the support column 404 together, the support column 404 is fixed on a bottom of the bearing block 402, the support column 404 supports a side of the top plate 300 away from the drum 400, the top plate 300 limits the top plate 300 and the support column 404 together through the bearing block 402 thereon, and the top plate 300 is supported on the ground through the support column 404, the rotary column 401 and the drum 400.

As shown in fig. 1 and 6, a receiving base 501 is fixed at the bottom of an ultrasonic motor 500, the receiving base 501 connects a fixing column 503 with the ultrasonic motor 500, the fixing columns 503 are fixed on an annular array at the bottom of the receiving base 501, a hydraulic cylinder 504 is sleeved at the bottom of the periphery of the fixing column 503, the hydraulic cylinder 504 is matched with the fixing column 503 sleeved thereon, so that the ultrasonic motor 500 ascends and descends, the ultrasonic conveying column 303 on a top plate 300 is drawn out of the receiving cylinder 200, the bottoms of the hydraulic cylinders 504 are all fixed on the top plate 300, an output shaft 502 is fixed at the output end of the ultrasonic motor 500, the output shaft 502 conveys power generated by the ultrasonic motor 500 to a vibration column 302, one end of the output shaft 502 far away from the ultrasonic motor 500 is fixed with the vibration column 302 on the top plate 300, the ultrasonic motor 500 is matched with the hydraulic cylinder 504 through the fixing column 503 fixed on the receiving base 501, so as to ascend and descend the ultrasonic motor 500, the ultrasonic motor 500 transmits power generated at the ultrasonic motor 500 to the vibration column 302 through an output shaft 502 fixed thereto.

The above is only the preferred embodiment of the present invention, and the present invention is not limited thereto, any technical solutions recorded in the foregoing embodiments are modified, and some technical features thereof are replaced with equivalent ones, and any modification, equivalent replacement, and improvement made thereby all belong to the protection scope of the present invention.

Claims (6)

1. The utility model provides a diallyl bisphenol A type epoxy supersound agitating unit, includes end section of thick bamboo (100), accepts a section of thick bamboo (200), roof (300), rotary drum (400) and ultrasonic motor (500), its characterized in that: the top of the bottom barrel (100) is fixed with a bearing barrel (200), the top of the bearing barrel (200) is provided with a top plate (300), an ultrasonic motor (500) is arranged above the center of the top plate (300), one side of the bottom of the top plate (300) is provided with a rotating barrel (400), the center of the top of the rotating barrel (400) is sleeved with a rotating column (401), and the top of the rotating column (401) is fixed with the top plate (300).

2. The ultrasonic stirring device of diallyl bisphenol A epoxy resin as claimed in claim 1, wherein a vibration motor (101) is fixed at the bottom of the inside of the bottom cylinder (100), and a transmission column (102) is fixed at the output end of the vibration motor (101).

3. The ultrasonic stirring device of diallyl bisphenol A type epoxy resin as claimed in claim 1, wherein a soft bottom plate (201) is fixed at the bottom of the inner wall of the receiving cylinder (200), a driving plate (202) is fixed at the center of the bottom of the soft bottom plate (201), and the center of the bottom of the driving plate (202) is fixed with the top of the driving column (102) on the bottom cylinder (100).

4. The ultrasonic stirring device of diallyl bisphenol A epoxy resin as claimed in claim 1, wherein a sleeve hole (301) is formed through the top center of the top plate (300), a vibration column (302) is sleeved in the sleeve hole (301), and an ultrasonic transmission column (303) is fixed to the bottom of the vibration column (302).

5. The ultrasonic stirring device of diallyl bisphenol A type epoxy resin as claimed in claim 1, wherein a hinge (403) is fixed on one side of the top plate (300) far away from the rotating drum (400), a bearing block (402) is fixed on the bottom of the hinge (403) near one side of the rotating drum (400), and a supporting column (404) is fixed on the bottom of the bearing block (402).

6. The ultrasonic stirring device of diallyl bisphenol A epoxy resin as claimed in claim 1, wherein the base of the ultrasonic motor (500) is fixed with the socket (501), the bottom of the socket (501) is fixed with the fixing columns (503) in the annular array, the bottom of the periphery of the fixing columns (503) is sleeved with the hydraulic cylinder (504), the bottoms of the hydraulic cylinders (504) are all fixed on the top plate (300), the output end of the ultrasonic motor (500) is fixed with the output shaft (502), and one end of the output shaft (502) far away from the ultrasonic motor (500) is fixed with the vibration column (302) on the top plate (300).

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