CN205182268U - Thick liquids vacuum defoamation machine - Google Patents

Abstract

The utility model discloses a thick liquids vacuum defoamation machine, which comprises a motor, a speed reducer, the shaft coupling, the transmission shaft, reversing gearbox, the inner drill stem axle, outside drill pipe rotates the cover, two butterfly deaeration dishes, tapering funnel and barrel, the motor is connected with the input of reduction gear, the output of reduction gear passes through the shaft coupling and is connected with the input of transmission shaft, reversing gearbox's driving gear is connected to the output of transmission shaft, outside drill pipe rotates the ways and locates the inner drill stem off -axial, it is epaxial that inner drill stem is located to reversing gearbox's driven gear cover, reversing gearbox's output gear cover is located outside drill pipe and is rotated the cover, reversing gearbox locates the top of barrel, the inner drill stem axle, outside drill pipe rotates the inside that the cover all stretched into the barrel, outside drill pipe rotates the cover and is connected with rotating vane, the axle in inner drill stem is all installed to two butterfly deaeration dishes, the tapering funnel is located two butterflies and takes off between the charging tray and go up along locating the barrel inner wall, down along being located lower part butterfly deaeration dish top. This deaeration machines have, good deaeration effect.

Description

Slurry vacuum defoamation machine

Technical field

The utility model relates to defoaming device technical field, more specifically relates to slurry vacuum defoamation machine.

Background technology

Vacuum defoamation technology is widely used in the deaeration of the alveolate liquid slurry of the band such as food, chemical industry, and existing slurry deaeration generally adopts the chemical method of adding defoamer or the physical method adopting vacuum stirring de-bubble.Chemical method needs to increase defoamer in addition, and some defoamer may produce bad reaction to raw material.Certain material need be placed in closed container by vacuum stirring bubble removing method, carries out stirring and uses vavuum pump to vacuumize.The method is Physical, usually can not change material physical and chemical performance, but only arranges a deaeration dish in container, and stirring is all unidirectional stirring, and deaeration effect is poor.

Utility model content

In order to solve the problem, the utility model provides a kind of two-way stirring, deaeration effect good slurry vacuum defoamation machine.

According to an aspect of the present utility model, provide slurry vacuum defoamation machine, it comprises motor, decelerator, shaft coupling, power transmission shaft, reverse box, interior drilling rod axle, outer drilling rod turning set, two butterfly deaeration dishes, tapering funnel and cylindrical shell, motor is connected with the input of decelerator, the output of decelerator is connected with the input of power transmission shaft by shaft coupling, the output of power transmission shaft connects the driving gear of reverse box, outer drilling rod turning set is sheathed on outside interior drilling rod axle, and the driven gear of reverse box is sheathed on interior drilling rod axle, and the output gear of reverse box is sheathed on outer drilling rod turning set, the top of cylindrical shell is located at by reverse box, interior drilling rod axle, outer drilling rod turning set all stretches into the inside of cylindrical shell, outer drilling rod turning set is connected with rotating vane, two butterfly deaeration dishes are all installed on interior drilling rod axle, two butterfly deaeration dishes between the upper and lower every setting, tapering funnel two butterflies to take off between charging tray and on along being located at cylinder inboard wall, lower edge is positioned at above bottom butterfly deaeration dish.Thus, reverse box is utilized to realize interior drilling rod axle and the transmission of outer drilling rod turning set double-shaft two-way, concrete, outer drilling rod turning set driven rotary blade positive direction is rotated, and interior drilling rod axle drives two butterfly deaeration dish counter-rotation, realizes two-way stirring to slurry, improve stirring efficiency, two butterfly deaeration dishes are set, substantially increase deaeration effect, effectively improve the quality of liquid slurry.

In some embodiments, reverse box also comprises casing, tumbler gear and in-line gears, one end of tumbler gear is engaged with driving gear, the other end of tumbler gear engages with driven gear, driving gear is fixedly connected with by power transmission shaft coaxial line with in-line gears, and in-line gears engage with output gear.Thus, during equipment operation, power transmission shaft drives driving gear positive direction to rotate, and driving gear drives driven gear by tumbler gear, drilling rod axle counter-rotation in driven gear drives, and it is counter-rotation that two butterflies being installed on interior drilling rod axle take off charging tray; Power transmission shaft drives in-line gears positive direction to rotate, and in-line gears drive output gear positive direction to rotate, and output gear drives outer drilling rod turning set positive direction to rotate, and the rotating vane being installed on outer drilling rod turning set is that positive direction is rotated.

In some embodiments, two butterfly deaeration dishes are 15 ~ 40 degree of conical disc and conical disc outer is along the circumferential direction parallel is provided with some spiral grooves.Thus, fall into top deaeration dish when slurry and progressively spread to edge by central point, the larger bubble be not also destroyed when arriving edge can be cut by the spiral groove on deaeration web edge, top, bubble diminishes, cylinder inboard wall is hit subsequently by powerful centrifugal force, then slowly flowed to the bottom of cylindrical shell by cylinder inboard wall film-like, slurry carries out filming through deaeration dish thus reaches the object destroying bubble in slurry; The effect of first order slurry film forming can be subject to many-sided restriction, such as, the fluctuation of slurry input amount, the rotating speed etc. of deaeration dish and rotating vane, these factors all can affect the effect of deaeration, therefore deaeration dish in bottom is set, bottom deaeration dish is flowed to along tapering funnel when being flowed down along cylinder inboard wall by the slurry after top deaeration dish film forming, the deaeration again of slurry implemented by deaeration dish in bottom, namely the de-aeration of top deaeration dish is repeated, slurry deaeration effect is significantly promoted, reduces the content of bubble in slurry, improve the quality of slurry.

In some embodiments, cylindrical shell is provided with pressure monitoring table.Thus, the pressure in cylindrical shell is monitored at any time by pressure monitoring table.

The utility model has the advantages that: the utility model structure is simple, rotating vane and the stirring of butterfly deaeration dish Double-directional rotary is realized by reverse box, improve stirring efficiency, utilize two butterfly deaeration dishes setting up and down, realize secondary deaeration, slurry deaeration effect is significantly promoted, reduces the content of bubble in slurry, improve the quality of slurry.

Accompanying drawing explanation

Fig. 1 is the structural representation of an embodiment of the utility model slurry vacuum defoamation machine;

Fig. 2 be the utility model slurry vacuum defoamation machine reverse box in upper strata gear distribution map;

Fig. 3 be the utility model slurry vacuum defoamation machine reverse box in lower floor's gear distribution map;

Fig. 4 is the structural representation of the butterfly deaeration dish of the utility model slurry vacuum defoamation machine.

Detailed description of the invention

Below in conjunction with detailed description of the invention, the utility model is further described.

As shown in Figures 1 to 3, the slurry vacuum defoamation machine of an embodiment described in the utility model, comprises motor 1, decelerator 2, shaft coupling 3, power transmission shaft 4, reverse box 5, interior drilling rod axle 6, outer drilling rod turning set 7, two butterfly deaeration dishes 8, tapering funnel 9 and cylindrical shells 10.The top of cylindrical shell 10 offers charging aperture 12, and the bottom of cylindrical shell 10 offers discharging opening 13, cylindrical shell 10 is provided with pressure monitoring table 11, and the top of cylindrical shell 10 is provided with suction interface 14.Motor 1 is connected with the input of decelerator 2, the output of decelerator 2 is connected with the input of power transmission shaft 4 by shaft coupling 3, the output of power transmission shaft 4 connects the driving gear 502 of reverse box 5, outer drilling rod turning set 7 is sheathed on outside interior drilling rod axle 6, the driven gear 504 of reverse box 5 is sheathed on interior drilling rod axle 6, the output gear 506 of reverse box 5 is sheathed on outer drilling rod turning set 7, the top of cylindrical shell 10 is located at by reverse box 5, interior drilling rod axle 6, outer drilling rod turning set 7 all stretches into the inside of cylindrical shell 10, outer drilling rod turning set 7 is connected with rotating vane 71, two butterfly deaeration dishes 8 are all installed on interior drilling rod axle 6, two butterfly deaeration dishes 8 are between the upper and lower every setting, tapering funnel 9 two butterflies to take off between charging tray 8 and on along being located at cylindrical shell 10 inwall, lower edge is positioned at above bottom butterfly deaeration dish 8.Reverse box 5 is utilized to realize interior drilling rod axle 6 and the transmission of outer drilling rod turning set 7 double-shaft two-way, concrete, outer drilling rod turning set 7 driven rotary blade 71 positive direction is rotated, interior drilling rod axle 6 drives two butterfly deaeration dish 8 counter-rotation, two-way stirring is realized to slurry, improves stirring efficiency, two butterfly deaeration dishes 8 are set, substantially increase deaeration effect, effectively improve the quality of liquid slurry.

Reverse box 5 also comprises casing 501, tumbler gear 503 and in-line gears 505, one end of tumbler gear 503 is engaged with driving gear 502, the other end of tumbler gear 503 engages with driven gear 504, driving gear 502 is fixedly connected with by power transmission shaft 4 coaxial line with in-line gears 505, and in-line gears 505 engage with output gear 506.During equipment operation, power transmission shaft 4 drives driving gear 502 positive direction to rotate, driving gear 502 drives driven gear 504 by tumbler gear 503, and driven gear 504 drives interior drilling rod axle 6 counter-rotation, and two butterflies being installed on interior drilling rod axle 6 take off charging tray 8 in counter-rotation; Power transmission shaft 4 drives in-line gears 505 positive direction to rotate, and in-line gears 505 drive output gear 506 positive direction to rotate, and output gear 506 drives outer drilling rod turning set 7 positive direction to rotate, and the rotating vane 71 being installed on outer drilling rod turning set 7 rotates in positive direction.

As shown in Figure 4, two butterfly deaeration dishes 8 are 15 ~ 40 degree of conical disc and conical disc outer is along the circumferential direction parallel is provided with some spiral grooves 81.Thus, fall into top butterfly deaeration dish 8 when slurry and progressively spread to edge by central point, the larger bubble be not also destroyed when arriving edge can be cut by the spiral groove 81 at butterfly deaeration dish 8 edge, top, bubble diminishes, cylindrical shell 10 inwall is hit subsequently by powerful centrifugal force, then slowly flowed to the bottom of cylindrical shell 10 by cylindrical shell 10 inwall film-like, slurry carries out filming through butterfly deaeration dish 8 thus reaches the object destroying bubble in slurry, the effect of first order slurry film forming can be subject to many-sided restriction, such as, the fluctuation of slurry input amount, the rotating speed etc. of butterfly deaeration dish 8 and rotating vane 71, these factors all can affect the effect of deaeration, therefore bottom butterfly deaeration dish 8 is set, bottom butterfly deaeration dish 8 is flowed to along tapering funnel 9 when being flowed down along cylindrical shell 10 inwall by the slurry after top butterfly deaeration dish 8 film forming, the deaeration again of slurry implemented by bottom butterfly deaeration dish 8, namely the de-aeration of top butterfly deaeration dish 8 is repeated, slurry deaeration effect is significantly promoted, reduce the content of bubble in slurry, improve the quality of slurry.

The course of work of the present utility model: continue to pour into the slurry treating deaeration in charging aperture, simultaneously, starter motor 1, decelerator 2 is started working, under the effect of shaft coupling 3, power transmission shaft 4 drives driving gear 502 positive direction to rotate, and driving gear 502 drives driven gear 504 counter-rotation by tumbler gear 503, driven gear 504 drives interior drilling rod axle 6 counter-rotation, and within institute, drilling rod axle 6 drives two butterfly deaeration dish 8 counter-rotation, power transmission shaft 4 drives in-line gears 505 positive direction to rotate, and in-line gears 505 drive output gear 506 positive direction to rotate, and output gear 506 drives outer drilling rod turning set 7 positive direction to rotate, and beyond institute, drilling rod turning set 7 driven rotary blade 71 positive direction is rotated, rotating vane 71 and top butterfly deaeration dish 8 pairs of slurries realize two-way stirring, fall into top butterfly deaeration dish 8 when slurry and progressively spread to edge by central point, the larger bubble be not also destroyed when arriving edge can be cut by the spiral groove 81 at butterfly deaeration dish 8 edge, top, bubble diminishes, cylindrical shell 10 inwall is hit subsequently by powerful centrifugal force, then the bottom of cylindrical shell 10 is slowly flowed to by cylindrical shell 10 inwall film-like, slurry carries out filming through butterfly deaeration dish 8 thus reaches the object destroying bubble in slurry, bottom butterfly deaeration dish 8 is flowed to along tapering funnel 9 when being flowed down along cylindrical shell 10 inwall by the slurry after top butterfly deaeration dish 8 film forming, the deaeration again of slurry implemented by bottom butterfly deaeration dish 8, namely the de-aeration of top butterfly deaeration dish 8 is repeated, when deaeration, the gas that the bubbles burst in slurry produces is discharged by suction interface, by observing the air pressure in pressure monitoring table moment observation cylindrical shell, complete the slurry after deaeration through bottom butterfly deaeration dish 8, subsequently because powerful centrifugal force hits cylindrical shell 10 inwall, then slowly flow to the discharging opening bottom cylindrical shell 10 by cylindrical shell 10 inwall film-like.The slurry vacuum defoamation machine that the utility model proposes makes slurry deaeration effect significantly promote, and reduces the content of bubble in slurry, improves the quality of slurry.

Above-described is only embodiments more of the present utility model; it should be pointed out that for the person of ordinary skill of the art, under the prerequisite not departing from creation design of the present utility model; can also make other distortion and improve, these all belong to protection domain of the present utility model.

Claims (4)

1. slurry vacuum defoamation machine, it is characterized in that, comprise motor (1), decelerator (2), shaft coupling (3), power transmission shaft (4), reverse box (5), interior drilling rod axle (6), outer drilling rod turning set (7), two butterfly deaeration dishes (8), tapering funnel (9) and cylindrical shell (10), described motor (1) is connected with the input of decelerator (2), the output of described decelerator (2) is connected with the input of power transmission shaft (4) by shaft coupling (3), the output of described power transmission shaft (4) connects the driving gear (502) of reverse box (5), described outer drilling rod turning set (7) is sheathed on interior drilling rod axle (6) outward, the driven gear (504) of described reverse box (5) is sheathed on interior drilling rod axle (6), the output gear (506) of described reverse box (5) is sheathed on outer drilling rod turning set (7), the top of cylindrical shell (10) is located at by described reverse box (5), described interior drilling rod axle (6), outer drilling rod turning set (7) all stretches into the inside of cylindrical shell (10), described outer drilling rod turning set (7) is connected with rotating vane (71), described two butterfly deaeration dishes (8) are all installed on interior drilling rod axle (6), described two butterfly deaeration dishes (8) are between the upper and lower every setting, described tapering funnel (9) is positioned at two butterflies and takes off between charging tray (8) also upper along being located at cylindrical shell (10) inwall, lower edge is positioned at bottom butterfly deaeration dish (8) top.

2. slurry vacuum defoamation machine according to claim 1, it is characterized in that, described reverse box (5) also comprises casing (501), tumbler gear (503) and in-line gears (505), one end of described tumbler gear (503) is engaged with driving gear (502), the other end of described tumbler gear (503) engages with driven gear (504), described driving gear (502) is fixedly connected with by power transmission shaft (4) coaxial line with in-line gears (505), described in-line gears (505) engage with output gear (506).

3. slurry vacuum defoamation machine according to claim 2, is characterized in that, described two butterfly deaeration dishes (8) are 15 ~ 40 degree of conical disc and conical disc outer is along the circumferential direction parallel is provided with some spiral grooves (81).

4. slurry vacuum defoamation machine according to claim 3, is characterized in that, described cylindrical shell (10) is provided with pressure monitoring table (11).