Disclosure of Invention
The invention provides the stirring equipment for ink processing, which is convenient to maintain and overcomes the defects of the prior art.
In order to achieve the purpose, the invention adopts the following technical scheme: a stirring device for ink processing comprises a base, a barrel body, a driving part and a stirring part; the barrel body comprises an outer barrel and a barrel body arranged in the outer barrel; the stirring component comprises a first stirring piece which is longitudinally arranged and a plurality of second stirring pieces which are transversely arranged, and the second stirring pieces are arranged in the barrel body; the barrel body is provided with a transmission mechanism which can drive the second stirring piece to rotate when the first stirring piece rotates; the transmission mechanism comprises a bearing part, a transmission part matched with the bearing part and an operation cavity arranged on the barrel body and matched with the transmission part; the barrel body comprises an inner barrel and an outer cover detachably connected with the inner barrel, and a gap is formed between the inner wall of the outer cover and the outer wall of the inner barrel to form the operation cavity. According to the invention, the detachable outer cover is arranged outside the inner barrel, so that when a transmission part in the operation cavity breaks down or is damaged, the outer cover can be directly detached and then the parts can be maintained, the maintenance is convenient, the realization is convenient and the working efficiency is high;
through the arrangement of the bearing part, the first stirring part directly penetrates into the bearing part, kinetic energy is transferred to the transmission part by driving the bearing part to rotate, and then the second stirring part rotates, so that the transmission effect is good, the connection and the transmission effect are realized by one device, and the device is multifunctional; the transmission part is arranged to transmit the kinetic energy on the bearing part to the second stirring part, so that the second stirring part can rotate simultaneously;
secondly, the base is arranged, the barrel body can be arranged on the base, so that the barrel body is supported, meanwhile, the barrel body is arranged on the base, the barrel body and the printing ink in the barrel body can vibrate together when the base vibrates, so that the mixing of all raw materials of the printing ink is accelerated, the stirring efficiency of the printing ink is improved, and the barrel body can also reduce the displacement of the barrel body relative to the stirring device due to the vibration, so that the stirring part is prevented from contacting with the inner wall of the barrel body; the stirring component can extend into the barrel body to stir the printing ink in the barrel body, so that all raw materials of the printing ink are uniformly mixed; the driving component is arranged to drive the stirring piece to rotate, and the driving component has strong power, so that the whole printing ink can be stirred, and the printing ink raw materials are mixed; the ink stirring device comprises a first stirring piece, a second stirring piece, a stirring device and a stirring device, wherein the first stirring piece is arranged in the longitudinal direction and drives ink to be transversely stirred in the rotating process, and the second stirring piece is arranged in the transverse direction and drives ink to be longitudinally stirred, so that the ink is subjected to bidirectional stirring, the collision among ink raw materials is intensified, the ink raw materials can be rapidly mixed, the ink raw materials are prevented from moving in one direction, the stirring time of the stirring device is shortened, and the stirring efficiency of the stirring device is improved; the mixing uniformity of all materials of the printing ink is improved, and the quality of the printing ink is guaranteed; set up drive mechanism and can be with on the first stirring piece pivoted kinetic energy transmission to the second stirring piece, and then the second stirring piece rotates simultaneously along with first stirring piece to carry out horizontal and vertical stirring to printing ink simultaneously, improve the speed that printing ink mixes, and this rabbling mechanism can transmit kinetic energy, avoided setting up motor drive second stirring piece alone, saved the resource, still reduced the volume of whole device, high durability and convenient use, the energy consumes lowly.
The outer cover comprises a first cover plate, a second cover plate, a third cover plate and a fourth cover plate which are distributed along the circumferential direction of the inner barrel; the first cover plate and the third cover plate are detachably connected with the inner barrel; only set up first, third cover plate as removable, the dismouting is easier, easy and simple to handle.
The left side and the right side of the second cover plate are respectively provided with a first clamping part, and the first cover plate and the third cover plate are respectively provided with a first groove matched with the first clamping part.
The left side and the right side of the fourth cover plate are respectively provided with a second clamping part, and the first cover plate and the third cover plate are respectively provided with a second groove matched with the first clamping part; through first card portion and first recess, the cooperation of second card portion and second recess guarantees first, third cover plate and interior barrel connection back, and second, fourth cover plate will directly be spacing, can not appear the position and remove, and then only need fixed first, third cover plate when the assembly can, convenient to detach and maintenance.
The bearing part comprises a base fixedly arranged at the bottom of the barrel body, a bearing part detachably connected with the base and a bearing part detachably connected with the bearing part; the first stirring piece is in stop-rotation fit with the bearing piece; the bottom of the stirring part can be locally thickened through the arrangement of the base, so that other parts can be conveniently installed and fixed; the bearing piece can fix the lower part of the first stirring piece, so that the lower part of the first stirring piece is prevented from shaking, the kinetic energy of the first stirring piece on the bearing piece can be transmitted to the bearing piece, the bearing piece rotates, the kinetic energy is transmitted to the transmission part, and the rotating effect is good; and set up the bearing spare and can be fixed bearing spare, can not influence first stirring piece rotatory, ensured first stirring piece normal rotation, and the bearing spare is little at rotatory in-process frictional force, therefore mechanical wear is little, has strengthened the life of device.
In summary, the invention has the following advantages: through set up the detachable dustcoat outside the bucket including, and then when the transmission part of operation intracavity breaks down or damages, can directly dismantle the back to spare part to the dustcoat and maintain easy maintenance, the realization of being convenient for, work efficiency is high.
Detailed Description
In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.
As shown in fig. 1-4, an efficient ink processing apparatus includes a base 1, a barrel 2, a driving part 3, and a stirring part 4; wherein the base 1 is a metal seat, and the driving part 4 is a motor; stirring part 4 include first stirring 41 and second stirring 42, first stirring 41 be a puddler that has the stirring rake, first stirring 41 link to each other with drive unit 4, rotate under drive unit 4's drive, and first stirring 41 stretches into to staving 2 by the top opening of staving 2 downwards, for vertical setting, second stirring 42 then sets up on the inner wall of staving 2, is equipped with operation chamber 21 on the 2 walls of staving, be equipped with the opening that is linked together with installation chamber 21 on the 2 lateral walls of staving, second stirring 42 one end stretch into to the installation chamber from the bung hole, and second stirring 42 is horizontal setting, should transversely set up to be parallel with the bottom of staving 2.
In order to drive the second stirring member 42 to rotate simultaneously when the first stirring member 41 is rotated, a transmission mechanism 5 is provided in the tub 2; specifically, the transmission mechanism 5 comprises a bearing part 6 and a transmission part 7, and the operation cavity 21 is matched with the transmission part 7; specifically, the barrel body 2 comprises an inner barrel 22 and an outer cover 23 detachably connected with the inner barrel, and a gap is formed between the inner wall of the outer cover 23 and the outer wall of the inner barrel to form the operation cavity 21; specifically, the outer cover 23 includes a first cover plate 231, a second cover plate 232, a third cover plate 233 and a fourth cover plate 234 distributed along the circumferential direction of the inner tub; the first cover plate 231, the second cover plate 232, the third cover plate 233 and the fourth cover plate 234 are all stainless steel plates, and have arc-shaped cross sections, wherein the first cover plate 231 and the third cover plate 233 are detachably connected with the inner tub 22 by screws.
For convenience of assembly, the left and right sides of the second cover plate 232 are respectively provided with a first clamping portion 235, and the first clamping portion is preferably a strip-shaped convex portion formed by directly extending the side wall of the second cover plate 232 outwards; the first cover plate 231 and the third cover plate 233 are respectively provided with a strip-shaped first groove 236, and the first clamping part 235 can be clamped into the first groove 236; further, the left and right sides of the fourth cover plate 234 are respectively provided with a second locking portion 237, the second locking portion 237 is preferably a strip-shaped protrusion formed by directly extending the sidewall of the fourth cover plate 234 outwards, the first cover plate 231 and the third cover plate 233 are respectively provided with a second groove 238, and the second locking portion 237 can be locked into the first locking portion.
The bearing part 6 comprises a base 61, a bearing part 62 and a bearing part 63; the base 61 is a metal cylinder, the bearing element 62 includes an outer bearing ring 629, an inner bearing ring 628 and balls, and the outer bearing ring 629 and the inner bearing ring 628 are both metal rings. A positioning column 611 is disposed at the center of the base 61, the bearing member 62 is sleeved on the positioning column 611, three positioning recesses 612 are disposed on the positioning column 611, the positioning recess 612 is a groove disposed along the length direction of the positioning column 611, three positioning protrusions 622 are disposed on the inner wall of the inner bearing ring 628, the positioning protrusions 622 can be inserted into the positioning recesses 612, so that the inner bearing ring 628 of the bearing member 62 is connected with the positioning column 611 in a rotation-stopping manner; the reference column can fix a position bearing spare to bearing spare can not take place the skew on the reference column, sets up the location concave part simultaneously, is equipped with the location convex part on bearing spare, consequently when bearing spare cover is established on the reference column, location convex part card is gone into to the concave part of location in, realizes that the inner ring and the reference column of bearing spare are spline and is connected, and the bearing spare of being convenient for rotates, and this mode of setting need not additionally to fix bearing spare, and fixed mode is simple, the dismouting of being convenient for.
Further, the bearing member 63 includes a bearing portion 633 and an umbrella portion 634, the bearing portion 633 is a metal column with a transmission cavity 65, the transmission cavity 65 is a cylindrical cavity formed by downward recessing of an upper end surface of the bearing portion 633, the umbrella portion 634 is a metal block having the same shape as an existing bevel gear on the market, and the bearing portion 633 and the umbrella portion 634 are integrally formed; the bearing part is matched with the first stirring piece, so that when the first stirring piece is clamped into the cavity of the containing piece, the bearing piece rotates along with the first stirring piece, and the umbrella tooth part is arranged to be matched with the transmission part conveniently to transmit kinetic energy on the bearing piece to the transmission part; the umbrella tooth part is directly sleeved on the bearing piece, so that the outer ring of the bearing piece can be effectively ensured to rotate along with the bearing piece, and the friction is reduced; a connecting cavity 635 is formed in the umbrella tooth portion 634, the connecting cavity 635 is formed by upward recessing the lower end surface of the umbrella tooth portion 634, a rotation stopping convex ring 64 is arranged in the connecting cavity 635, the rotation stopping convex ring 64 is a metal ring with the same cross-sectional diameter as that of the outer bearing ring 629, three rotation stopping convex parts 646 are arranged on the rotation stopping convex ring 64 at intervals, three rotation stopping concave parts 626 are arranged on the outer bearing ring 629 at intervals, and when the connection is carried out, the rotation stopping convex parts 646 are clamped into the rotation stopping concave parts 626; the bearing component is provided with a connecting cavity, a bearing component can be conveniently sleeved on the bearing component, a rotation stopping and rotation stopping convex ring is arranged in the connecting cavity, the rotation stopping convex ring is connected with the outer wall of the bearing component, a rotation stopping convex part is arranged on the rotation stopping convex ring, a rotation stopping concave part is arranged on the bearing component, the rotation stopping convex part is clamped into the rotation stopping concave part, the bearing component is matched with the rotation stopping of the bearing component, the bearing component can rotate, the bearing component can be raised through the rotation stopping convex ring, and the bottom of the bearing component is prevented from contacting with the base.
A V-shaped groove 647 is respectively arranged on the inner wall and the bottom of the rotation stopping concave part 626, a V-shaped part 627 is arranged on the rotation stopping convex part 626, and the V-shaped part 627 is clamped into the V-shaped groove 626; the arrangement mode increases the contact area between the side walls and the bottoms of the rotation stopping concave part and the rotation stopping convex part, so that the friction force between the rotation stopping concave part and the rotation stopping convex part is increased; the rotation stopping convex part is clamped into the rotation stopping concave part for limiting by the arrangement of the rotation stopping convex part, so that the condition that the rotation stopping convex part is not deviated from the rotation stopping concave part is ensured, and the rotation stopping convex part can be clamped into the rotation stopping concave part conveniently, so that the accuracy in the connection process is ensured.
Furthermore, three clamping convex parts 651 are arranged in the transmission cavity 65, three clamping concave parts 451 are arranged at the bottom of the first stirring part 41, the clamping convex parts 651 and the clamping concave parts 451 are both arranged in a sector shape, when in connection, the end part of the second stirring part 42 penetrates into the transmission cavity 65, and the clamping convex parts 651 are clamped into the clamping concave parts 641, so that the first stirring part 41 is in rotation stopping connection with the bearing part 63; set up the transmission chamber and can be convenient for the lower tip of first stirring piece penetrate to the transmission intracavity, and then carry on spacingly to the lower tip of first stirring piece, avoid first stirring piece to take place the skew, set up the screens convex part in the transmission intracavity, the setting of this screens convex part makes first stirring piece can drive the piece that holds rotate, and then outwards transmit the kinetic energy on the first stirring piece.
Further, the transmission member 7 includes a first transmission rod 71 and a second transmission rod 72, the first transmission rod 71 and the second transmission rod 72 are metal rods having two ends respectively fixed with a bevel gear, the bevel gear on one end of the first transmission rod 71 is engaged with the bevel gear on the second transmission rod 72, the other end is engaged with the bevel gear on the second transmission rod 72, and the end of the second stirring member 42 is connected with a bevel gear, which is engaged with the bevel gear on the second transmission rod 72.
Further, be equipped with anti-skidding concave part 8 on the base, be equipped with six in this anti-skidding concave part 8 and compress tightly piece 9, compress tightly piece 9 including elastic component 91 and compress tightly piece 92, elastic component 91 is the spring, and this elastic component 91 one end is fixed on anti-skidding concave part 8's lateral wall, and the other end links to each other with compressing tightly piece 92, compressing tightly piece 92 upper end for from top to bottom slope setting.
It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.