CN117582862B - Liquid ink mixing proportioning device - Google Patents

Abstract

The invention relates to the technical field of ink mixing proportioning devices, in particular to a liquid ink mixing proportioning device which comprises a mixing tank, wherein a fixed cover is arranged at the top end of the mixing tank, a plurality of temporary storage grooves are formed in the fixed cover in a surrounding mode, a main rotating shaft and an auxiliary rotating shaft are arranged inside the mixing tank, an adjusting plate is sleeved outside the auxiliary rotating shaft, the bottom end of the adjusting plate is rotatably connected with a lifting plate, a switching assembly is arranged inside the adjusting plate and the lifting plate, the switching assembly comprises a first rotating rod which is symmetrically arranged, one end of the first rotating rod is in threaded connection with a matching block, a rotatable second rotating rod is arranged below the first rotating rod, a threaded rod is arranged on one side of the second rotating rod, a pushing ring is in threaded connection with the threaded rod, a jacking block is arranged inside the lifting plate, and one end, close to the symmetry center, of the jacking block is connected with a semi-ring which is elastically connected with the lifting plate. Therefore, the invention can mix various raw materials in sequence rapidly and efficiently, ensure good mixing effect, improve mixing efficiency and reduce manufacturing and maintenance costs.

Description

Liquid ink mixing proportioning device

Technical Field

The invention relates to the technical field of ink mixing and proportioning devices, in particular to a liquid ink mixing and proportioning device.

Background

The printing ink is an important material for printing, and is used for representing patterns and characters on a printing stock through printing or spray painting, and the printing ink consists of a binder, pigment, filler, an auxiliary agent and the like (such as a filler, a diluent, an antiskinning agent, a slip agent and the like) and is used in the fields of books and periodicals, package decoration, architectural decoration, printing of electronic circuit boards and the like.

At present, current printing ink mixes proportioning device, for example, the patent of publication No. CN211384577U discloses a raw materials proportioning device for printing ink production, including the proportioning box, proportioning box both sides are inside to be equipped with printing ink raw materials proportioning room, proportioning box both sides bottom is connected with first circulation pipeline and second circulation pipeline respectively, and first circulation pipeline and second circulation pipeline bottom all are connected with the hybrid tube body, first circulation pipeline and second circulation pipeline top all link up with printing ink raw materials proportioning room mutually, and electromagnetic flow stop valve is all installed to first circulation pipeline and second circulation pipeline top inside, the hybrid tube body is rectangular structure, and hybrid tube body inner wall both sides are connected with first water conservancy diversion mixing plate and second water conservancy diversion mixing plate respectively, hybrid tube body bottom is connected with the raw materials ratio exit tube, and raw materials ratio exit tube bottom inside is the helicitic texture, it can be convenient to carry out preliminary mixing to printing ink raw materials, but above-mentioned device mixing efficiency is relatively poor, and in the proportioning process of some customized printing ink, need first mix several main raw materials evenly and then add other than other small-account for raw materials and auxiliary agent, if the kind of raw materials is more, then need the use a large amount and the solenoid valve can be lifted with high costs and maintenance time.

How to mix various raw materials in order fast and efficiently, ensures good mixing effect, improves mixing efficiency, reduces manufacturing and maintenance cost simultaneously, and becomes a technical problem needing breakthrough.

In summary, it is clear that the prior art has inconvenience and defects in practical use, so that improvement is needed.

Disclosure of Invention

Aiming at the defects, the invention aims to provide a liquid ink mixing proportioning device which can mix various raw materials in sequence rapidly and efficiently, ensure good mixing effect, improve mixing efficiency and reduce manufacturing and maintenance cost.

In order to achieve the above purpose, the invention provides a liquid ink mixing proportioning device, which comprises a mixing tank, wherein the top end of the mixing tank is provided with a fixed cover, a plurality of temporary storage grooves are annularly arranged on the fixed cover, the bottom ends of the temporary storage grooves are respectively provided with a blanking port, the blanking ports respectively comprise a limiting ring, the inside of each limiting ring is elastically connected with a trigger rod, through holes matched with each other are symmetrically formed in each trigger rod and each limiting ring, a rotatable main rotating shaft and an auxiliary rotating shaft are arranged in each fixed cover and the mixing tank, the auxiliary rotating shaft is sleeved outside the main rotating shaft, an adjusting plate is sleeved outside the auxiliary rotating shaft, the top end of the adjusting plate is provided with a shielding ring, a push rod is arranged in the shielding ring, a liquid guide groove is arranged between the push rod and the shielding ring, the bottom ends of the adjusting plate are rotatably connected with a lifting plate, the lifting plate is slidably connected to the mixing tank, a plurality of hollow grooves are annularly arranged on the lifting plate, and a switching assembly is arranged in the lifting plate.

The switching assembly comprises a rotatable first rotating rod which is symmetrically arranged, wherein driving spur gears are sleeved on the first rotating rod, one end of the first rotating rod close to the symmetry center is connected with a matching block in a threaded mode, a plurality of matching grooves matched with the matching block are formed in the peripheral ring of the auxiliary rotating shaft, a rotatable second rotating rod is arranged below the first rotating rod, driven spur gears meshed with the driving spur gears are sleeved on the second rotating rod, threaded rods are arranged on one side of the second rotating rod, a bevel gear set is arranged between the second rotating rod and the threaded rods, two threaded rods are connected with one pushing ring in a threaded mode, grooves matched with the pushing ring are formed in the lifting plate in a sliding mode, a jacking block matched with the pushing ring is arranged in the lifting plate in a sliding mode, one end of the jacking block close to the symmetry center is connected with a semi-ring of the lifting plate in a threaded mode, and one end of the semi-ring close to the auxiliary rotating shaft is connected with the auxiliary rotating shaft in a threaded mode.

According to the liquid ink mixing proportioning device, the center of the inside of the fixed cover is provided with the mounting groove, the mounting groove is internally provided with the driving assembly, the driving assembly comprises the rotatable driving bevel gear rotatably connected to the inner top wall of the mounting groove, the driving bevel gear is sleeved on the main rotating shaft, the top end of the auxiliary rotating shaft is connected with the driven bevel gear, and the driving bevel gear and the driven bevel gear are both meshed with the movable transmission bevel gear.

According to the liquid ink mixing proportioning device disclosed by the invention, the trigger rods are symmetrically provided with the inserting blocks, the inner walls of the limiting rings are respectively provided with the inserting grooves matched with the inserting blocks, and the elastic parts are respectively arranged between the inserting blocks and the inserting grooves.

According to the liquid ink mixing proportioning device, the diameter of the driven straight gear is larger than that of the driving straight gear.

According to the liquid ink mixing proportioning device disclosed by the invention, the top ends of the temporary storage tanks are respectively provided with the cover plates, the cover plates are respectively connected with the material guide pipes, the bottom ends of the mixing tanks are provided with the discharge ports, and the discharge ports are provided with the valves.

According to the liquid ink mixing proportioning device, the periphery of the mixing tank is provided with the fixed ring, the bottom end of the fixed ring is provided with the plurality of supporting legs, and the main rotating shaft inside the mixing tank is provided with the plurality of stirring paddles.

According to the liquid ink mixing proportioning device, the bevel gear sets comprise the first bevel gears and the second bevel gears which are meshed with each other, the first bevel gears are connected with the second rotating rods, and the second bevel gears are connected with the threaded rods.

According to the liquid ink mixing proportioning device, the mixing tank is provided with the window.

According to the liquid ink mixing proportioning device, a plurality of sealing rings are arranged between the trigger rod and the limiting ring.

According to the liquid ink mixing proportioning device, the end, close to the pushing ring, of the top block and the end, close to the top block, of the pushing ring are provided with cambered surfaces.

The invention aims to provide a liquid ink mixing and proportioning device which comprises a switching component, wherein the switching component is matched with components such as a lifting plate and a regulating plate, so that various raw materials can be mixed in sequence rapidly and efficiently, a good mixing effect is ensured, and the mixing efficiency is improved; electromagnetic valves are not needed in the mixing tank, so that the manufacturing and maintenance costs are reduced, meanwhile, driving parts are saved, the running cost is reduced, and the long-time work with higher load can be performed; if some raw materials have special properties, operators can timely supplement the raw materials by observing the condition of the ink at the present stage. The beneficial effects of the invention are as follows: can be quick high-efficient mix multiple raw materials in proper order, guarantee good mixed effect, promote mixing efficiency, reduce preparation and maintenance cost simultaneously.

Drawings

FIG. 1 is a block diagram of the present invention; FIG. 2 is a longitudinal cross-sectional view of the stationary cover and the interior of the mixing tank; FIG. 3 is an enlarged view of portion A of FIG. 2; FIG. 4 is an enlarged view of portion C of FIG. 3; FIG. 5 is an enlarged view of portion B of FIG. 2; FIG. 6 is a block diagram of the adjusting plate; FIG. 7 is a block diagram of a push ring; FIG. 8 is a diagram of the semi-ring structure; in the figure: 1-mixing tank, 11-discharge port, 12-fixed ring, 13-supporting leg, 2-fixed cover, 21-temporary storage groove, 211-cover plate, 22-guide pipe, 23-installation groove, 24-discharge port, 241-limit ring, 242-trigger lever, 243-through hole, 244-seal ring, 3-drive component, 31-drive bevel gear, 311-first drive piece, 32-main rotation shaft, 321-stirring paddle, 33-drive bevel gear, 331-expansion piece, 34-driven bevel gear, 341-auxiliary rotation shaft, 342-mating groove, 4-adjusting plate, 41-shielding ring, 42-ejector pin, 5-lifting plate, 51-hollow groove, 52-slide block, 53-dodging groove, 6-switch component, 61-first rotation rod, 611-drive spur gear, 612-mating block, 613-second drive piece, 62-second rotation rod, 621-driven spur gear, 63-bevel gear set, 631-first bevel gear, 632-second bevel gear, 64-threaded rod, 65-push ring, 66-ejector ring, 7-ejector pin, 67-elastic piece.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

In the description of the present invention, it should be noted that the positional or positional relationship indicated by the terms such as "upper", "lower", "inner", "outer", "top/bottom", etc. are based on the positional or positional relationship shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "provided," "engaged/connected," "connected," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, may be a detachable connection, or may be an integral connection, may be a mechanical connection, may be an electrical connection, may be a direct connection, may be an indirect connection via an intermediary, may be a communication between two elements, and for one of ordinary skill in the art, the specific meaning of the terms in this disclosure may be understood in a specific case.

Referring to fig. 1, the invention provides a liquid ink mixing proportioning device, which comprises a mixing tank 1, wherein the top end of the mixing tank 1 is an opening, a discharge port 11 (a valve is arranged on the discharge port 11, not shown in the drawing) is arranged at the bottom end of the mixing tank 1, the mixing tank 1 is used for mixing ink, a fixed ring 12 is arranged at the periphery of the mixing tank 1, a plurality of supporting legs 13 are arranged at the bottom end of the fixed ring 12, a fixed cover 2 is arranged at the top end of the mixing tank 1, a mounting groove 23 is arranged at the center of the inside of the fixed cover 2, a plurality of temporary storage grooves 21 are annularly arranged on the fixed cover 2, the temporary storage grooves 21 are used for temporarily storing different types of ink or auxiliary agents, a cover plate 211 is arranged at the top end of each temporary storage groove 21 (if the ink in each temporary storage groove 21 needs to be continuously stirred, a stirring rod can be arranged in each temporary storage groove 21, a motor is arranged at the top end of each cover plate 211 to drive the stirring rod), and each cover plate 211 is connected with a material guide pipe 22, and the ink can be supplemented into each temporary storage groove 21 through the material guide pipe 22.

Referring to fig. 2 to 8, a window (not shown) is preferably provided on the mixing tank 1 to facilitate observation of the state of the ink in the mixing tank 1.

Referring to fig. 1, fig. 2 and fig. 5, the fixed cover 2 at the bottom end of the temporary storage tank 21 is provided with the blanking port 24, the blanking port 24 comprises a limiting ring 241 connected to the fixed cover 2 (the limiting ring 241 enables the inside of the temporary storage tank 21 and the inside of the mixing tank 1 to be mutually communicated), the inside of the limiting ring 241 is elastically connected with a trigger lever 242 (the trigger lever 242 is symmetrically provided with inserting blocks, the inner wall of the limiting ring 241 is provided with inserting grooves matched with the inserting blocks, an elastic piece 7 is arranged between the inserting blocks and the inserting grooves), the inside of the trigger lever 242 is hollow, the top end of the trigger lever 242 is open, the bottom end of the trigger lever 242 is located below the bottom end of the limiting ring 241 (when more ink is in the temporary storage tank 21, the bottom end of the trigger lever 242 is located below the bottom end of the limiting ring 241 due to the gravity of the ink, the bottom end of the trigger lever 242 is still located below the bottom end of the limiting ring 241 under the limitation of the elastic piece 7 under the limitation of the fact that the ink is in the temporary storage tank 21), when the through holes 243 on the trigger lever 242 and the limiting ring 241 are overlapped, the ink in the trigger lever 242 and the limiting ring 241 can flow out of the trigger lever 241 through the through holes 243 on the limiting ring 241, and the sealing rings 244 are arranged between the trigger lever and the limiting ring 241, and the limiting ring 242 can be prevented from leaking out from between the trigger lever 21 and the limiting ring 242.

Referring to fig. 1 and 2, a driving component 3 is disposed in a mounting groove 23, the driving component 3 includes a driving bevel gear 31 rotatably connected to an inner top wall of the mounting groove 23, a main rotating shaft 32 is disposed on the driving bevel gear 31 in a penetrating manner, the main rotating shaft 32 is rotatably connected to the mounting groove 23, a top end of the main rotating shaft 32 penetrates out of the fixed cover 2 to be connected with a first driving member 311, the first driving member 311 is connected to the fixed cover 2, the first driving member 311 can drive the main rotating shaft 32 to rotate, the main rotating shaft 32 can drive the main rotating shaft 31 to rotate, a bottom end of the main rotating shaft 32 penetrates into the mixing tank 1, a plurality of stirring paddles 321 are disposed on the main rotating shaft 32 in the mixing tank 1, an auxiliary rotating shaft 341 is sleeved outside the main rotating shaft 32, the auxiliary rotating shaft 341 is rotatably connected to the fixed cover 2, a top end of the auxiliary rotating shaft 341 is connected to a driven bevel gear 34, the driven bevel gear 34 can drive the auxiliary rotating shaft 341 to rotate, the driven bevel gear 34 is rotatably connected to the outside the main rotating shaft 32, a bottom end of the auxiliary rotating shaft penetrates into the mixing tank 1, the main rotating shaft 31 and the driven bevel gear 34 is meshed with a transmission 33, one end of the transmission bevel gear 33 far away from the main bevel gear 31 is connected with a telescopic member 331, the telescopic member is connected to the inner wall of the mounting groove 23, and the main rotating shaft 331 can drive the main rotating shaft 331 and the auxiliary bevel gear 33 can drive the auxiliary rotating shaft and the auxiliary rotating shaft 33 to rotate synchronously when the main rotating shaft 33 and the auxiliary rotating shaft 341 rotates.

Referring to fig. 2-8, an adjusting plate 4 and a lifting plate 5 are sequentially sleeved outside a secondary rotating shaft 341 inside the mixing tank 1 from top to bottom, a shielding ring 41 is arranged at the top end of the adjusting plate 4, a push rod 42 is arranged inside the shielding ring 41, a connecting rod (not shown in the figure, the connecting rod can fix the push rod 42 on the shielding ring 41) is arranged between the push rod 42 and the shielding ring 41, a liquid guide groove (not shown in the figure, ink can pass through the liquid guide groove to flow to the bottom of the mixing tank 1) is arranged between the push rod 42 and the shielding ring 41, the bottom end of the adjusting plate 4 is rotationally connected with the lifting plate 5, the lifting plate 5 is slidably connected with the inner wall of the mixing tank 1 (two ends of the lifting plate 5 are symmetrically provided with sliding blocks 52, the inner wall of the mixing tank 1 is provided with sliding ways matched with the sliding blocks 52, the sliding blocks 52 are slidably arranged in the sliding ways), a plurality of hollow grooves 51 are annularly arranged on the lifting plate 5, raw materials can flow to the bottom of the mixing tank 1 through the hollow groove 51, a switching component 6 is arranged in the regulating plate 4 and the lifting plate 5, the switching component 6 comprises a first rotating rod 61 (an auxiliary rotating shaft 341 is positioned on the symmetrical shafts of the two first rotating rods 61) which is symmetrically and rotatably connected in the regulating plate 4, one end of the first rotating rod 61 far away from the symmetrical center is connected with a second driving piece 613, the second driving piece 613 can drive the first rotating rod 61 to rotate, the first rotating rod 61 is sleeved with a driving spur gear 611, the driving spur gear 611 is rotatably connected with the regulating plate 4, the driving spur gear 611 can rotate along with the first rotating rod 61, one end of the first rotating rod 61 close to the symmetrical center is in threaded connection with a matching block 612, the matching block 612 is in sliding connection with the regulating plate 4 (the matching block 612 is symmetrically provided with a first bump, the regulating plate 4 is internally provided with a first groove matched with the first bump), the first protruding block is all slidingly arranged in the first groove), when the first rotating rod 61 rotates, under the limitation of the first protruding block, the matching block 612 cannot rotate along with the first rotating rod 61, only horizontal movement can be carried out on the first rotating rod 61, one end, close to the symmetry center, of the matching block 612 is penetrated out of the adjusting plate 4, a plurality of matching grooves 342 matched with the matching block 612 are formed in the periphery of the auxiliary rotating shaft 341 in a surrounding mode, the matching block 612 penetrating out of the adjusting plate 4 can be inserted into the matching grooves 342, matching of the matching block 612 and the matching grooves 342 is facilitated, and the number of the matching grooves 342 can be properly increased.

Referring to fig. 2-8, a second rotating rod 62 is disposed below the first rotating rod 61, the second rotating rod 62 is rotationally connected to the adjusting plate 4, a driven spur gear 621 is sleeved on the second rotating rod 62, the driven spur gear 621 can drive the second rotating rod 62 to rotate, the driven spur gear 621 is meshed with the driving spur gear 611, the diameter of the driven spur gear 621 is larger than that of the driving spur gear 611, a threaded rod 64 disposed vertically is disposed on one side of the second rotating rod 62 close to the center of symmetry, the threaded rod 64 is rotationally connected to the adjusting plate 4, a bevel gear set 63 is disposed between the second rotating rod 62 and the threaded rod 64, the bevel gear set 63 comprises a first bevel gear 631 and a second bevel gear 632 which are mutually meshed, the first bevel gear 631 is connected with the second rotating rod 62 (the first bevel gear 631 is disposed vertically), the second bevel gear 632 is connected with the threaded rod 64 (the second bevel gear 632 is disposed horizontally), through the transmission function of the bevel gear group 63, when the second rotating rod 62 rotates, the threaded rod 64 can rotate along with the second rotating rod 62, the same push ring 65 is connected to the threads on the two threaded rods 64, when the two threaded rods 64 synchronously rotate, the push ring 65 cannot rotate along with the threaded rod 64 and can only move up and down on the threaded rod 64, the push ring 65 is connected with the adjusting plate 4 in a sliding manner, the bottom end of the push ring 65 penetrates out of the adjusting plate 4, the lifting plate 5 is provided with an avoidance groove 53 allowing the push ring 65 to be inserted, the lifting plate 5 is internally provided with a top block 66 matched with the push ring 65 in a sliding manner, one end of the top block 66 close to the symmetrical center is connected with a half ring 67, the half ring 67 is connected with the lifting plate 5 in an elastic manner (the half ring 67 is symmetrically provided with a second convex block, the lifting plate 5 is internally provided with a second groove matched with the second convex block, the second convex block is arranged in the second groove in a sliding manner, and elastic pieces 7 are arranged between the second convex blocks and the second grooves, one ends of the semi-rings 67, which are close to the lifting plates 5, penetrate out of the lifting plates 5, and one ends of the semi-rings 67, which are close to the auxiliary rotating shafts 341, are connected with the auxiliary rotating shafts 341 through threads.

Referring to fig. 2 to 8, preferably, the end of the top block 66 close to the push ring 65 and the end of the push ring 65 close to the top block 66 are both provided with cambered surfaces, so that friction force generated when the top block 66 contacts with the push ring 65 can be reduced.

Referring to fig. 2-8, the first driving member 311 and the second driving member 613 are preferably rotating motors, and the telescopic member 331 is an electric cylinder for powering the device.

Referring to fig. 2 to 8, preferably, the elastic member 7 is a spring, and provides return power.

Referring to fig. 1 to 8, according to the actual situation (the kind of raw materials), the number of temporary storage grooves 21 is set, and a controller is connected between the first driving member 311, the second driving member 613 and the telescopic member 331, so that unified control is facilitated (the specific connection manner and working principle of the controller are not described in detail here in the prior art, which controls a plurality of power supply devices), different kinds of raw materials (different colors of ink or auxiliary agents) are stored in a plurality of temporary storage grooves 21, when the proportioning is required to be started, the second driving member 613 is started, the first rotating rod 61 and the second rotating rod 62 realize differential rotation (because the diameter of the driven spur gear 621 is larger than that of the driving spur gear 611), so that the push ring 65 and the matching block 612 start to move simultaneously, that is, the push ring 65 moves to the side far from the top block 66, the matching block 612 moves to one side close to the matching groove 342 (parameters such as the diameter of the driven straight gear 621, the diameter of the driving straight gear 611, the screw thread directions of the first rotating rod 61 and the matching block 612, the screw thread directions of the pushing ring 65 and the threaded rod 64 and the like are reasonably set, so that the pushing ring 65 and the matching block 612 can smoothly complete movement), when the matching block 612 is inserted into the matching groove 342, the pushing ring 65 is not contacted with the top block 66, at the moment, the telescopic piece 331 is opened, the transmission bevel gear 33 simultaneously engages the driving bevel gear 31 and the driven bevel gear 34, the first driving piece 311 is opened, the main rotating shaft 32 and the auxiliary rotating shaft 341 synchronously rotate, the adjusting plate 4 can rotate along with the auxiliary rotating shaft 341, the ejector rod 42 is just opposite to the blanking port 24 which needs to perform blanking first (namely, the temporary storage groove 21 which performs blanking first is selected according to the blanking sequence, and the raw material with the largest proportion is usually selected to perform blanking first), closing the first driving piece 311, opening the second driving piece 613, moving the push ring 65 to a side close to the top block 66, moving the matching block 612 to a side far away from the matching groove 342, after the semi-rings 67 are in threaded connection with the auxiliary rotating shafts 341, opening the first driving piece 311, at this time, supporting the adjusting plate 4 by the lifting plate 5 to perform lifting movement until the ejector rods 42 push the trigger rods 242 upwards, stopping the operation of the first driving piece 311 after the raw materials in the temporary storage groove 21 flow out through the through holes 243, allowing the raw materials to flow to the bottom of the mixing tank 1 after passing through the liquid guide groove and the hollowed-out groove 51 (according to the ratio of each component of the prepared ink, storing the raw materials with the right volume in each temporary storage groove 21, and supplementing the raw materials after all the temporary storage grooves 21 are completely discharged if needed), opening the first driving piece 311 after the raw materials in the temporary storage groove 21 are completely discharged, and allowing the lifting plate 5 to drive the adjusting plate 4 to return to the initial position, thus completing the discharging of the raw materials.

Referring to fig. 1 to 8, after finishing the blanking of all the raw materials in sequence according to the above steps (the blanking sequence can be set according to the types of the raw materials, that is, the blanking of the raw materials with larger occupation ratio is firstly performed on the premise that the raw materials have no special property, if some raw materials have special properties, for example, viscosity is increased after the raw materials are added, and the raw materials are easy to cause uneven mixing, the raw materials are finally blanked), an operator observes the raw materials through an observation window or a small amount of ink is discharged from a discharge hole 11 and scraped on paper, judges which raw materials need to be supplemented according to the color of the ink, after the raw materials are supplemented in the corresponding temporary storage groove 21, the ejector rod 42 is made to face the corresponding temporary storage groove 21 according to the above steps, the lifting plate 5 is made to support the adjusting plate 4, the blanking of the temporary storage groove 21 is performed, and the time and the blanking amount are adjusted according to the real-time condition of the ink.

The invention provides a liquid ink mixing proportioning device, which comprises a switching component, wherein the switching component is matched with components such as a lifting plate and a regulating plate, so that various raw materials can be mixed in sequence rapidly and efficiently, a good mixing effect is ensured, and the mixing efficiency is improved; electromagnetic valves are not needed in the mixing tank, so that the manufacturing and maintenance costs are reduced, meanwhile, driving parts are saved, the running cost is reduced, and the long-time work with higher load can be performed; if some raw materials have special properties, operators can timely supplement the raw materials by observing the condition of the ink at the present stage. The beneficial effects of the invention are as follows: can be quick high-efficient mix multiple raw materials in proper order, guarantee good mixed effect, promote mixing efficiency, reduce preparation and maintenance cost simultaneously.

Of course, the present invention is capable of other various embodiments and its several details are capable of modification and variation in light of the present invention, as will be apparent to those skilled in the art, without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (10)

1. The utility model provides a liquid ink mixes proportioning device, its characterized in that, includes the blending tank, the top of blending tank is equipped with the fixed lid, the fixed lid is gone up to encircle and is equipped with a plurality of temporary storage grooves, the bottom of temporary storage groove all is equipped with the feed opening, the feed opening all includes the spacing ring, the inside all elastic connection of spacing ring has the trigger lever, all symmetry is equipped with the through-hole of mutually supporting on trigger lever and the spacing ring, the inside rotatable main rotation axis and the auxiliary rotation axis of being equipped with of fixed lid and blending tank, the auxiliary rotation axle sleeve is located main rotation axis outside, the outside cover of auxiliary rotation axis is equipped with the regulating plate, the top of regulating plate is equipped with the shielding ring, the inside of shielding ring is equipped with the ejector pin, be equipped with the drain groove between ejector pin and the shielding ring, the bottom rotation of regulating plate is connected the lifter plate, lifter plate sliding connection is in the blending tank, the ring is equipped with a plurality of fretwork grooves on the lifter plate, regulating plate and lifter plate inside are equipped with the switching assembly;

the switching assembly comprises rotatable first rotating rods which are symmetrically arranged, wherein the first rotating rods are respectively sleeved with a driving spur gear, one ends of the first rotating rods close to the symmetry center are respectively connected with a matching block in a threaded mode, the periphery of the auxiliary rotating shaft is provided with a plurality of matching grooves matched with the matching blocks, rotatable second rotating rods are respectively arranged below the first rotating rods, driven spur gears meshed with the driving spur gears are respectively sleeved on the second rotating rods, threaded rods are respectively arranged on one sides of the second rotating rods, cone gear sets are respectively arranged between the second rotating rods and the threaded rods, two threaded rods are connected with the same pushing ring in a threaded mode, avoiding grooves matched with the pushing ring are formed in the lifting plate, a jacking block matched with the pushing ring is arranged in the lifting plate in a sliding mode, one ends of the jacking block close to the symmetry center are respectively connected with semi-rings of the lifting plate, and one ends of the semi-rings close to the auxiliary rotating shaft are respectively connected with the auxiliary rotating shaft in a threaded mode;

when the proportioning is needed, the pushing ring is made to move to one side far away from the jacking block, the matching block is made to move to one side close to the matching groove, after the matching block is inserted into the matching groove, the main rotating shaft and the auxiliary rotating shaft are made to synchronously rotate, when the ejector rod is right opposite to the discharging opening, the pushing ring is made to move to one side close to the jacking block, the matching block is made to move to one side far away from the matching groove, and after the semi-rings are in threaded connection with the auxiliary rotating shaft, the lifting plate supports the adjusting plate to conduct lifting movement until the ejector rod pushes the trigger rod upwards.

2. The liquid ink mixing and proportioning device according to claim 1, wherein an installation groove is formed in the center of the inside of the fixed cover, a driving assembly is arranged in the installation groove, the driving assembly comprises a rotatable driving bevel gear rotatably connected to the inner top wall of the installation groove, the driving bevel gear is sleeved on the main rotating shaft, the top end of the auxiliary rotating shaft is connected with a driven bevel gear, and the driving bevel gear and the driven bevel gear are both meshed with a movable transmission bevel gear.

3. The liquid ink mixing and proportioning device according to claim 1, wherein the trigger rods are symmetrically provided with inserting blocks, the inner walls of the limiting rings are provided with inserting grooves matched with the inserting blocks, and elastic pieces are arranged between the inserting blocks and the inserting grooves.

4. The liquid ink mixing proportioning device of claim 1, wherein the diameter of the driven spur gear is greater than the diameter of the driving spur gear.

5. The liquid ink mixing and proportioning device according to claim 1, wherein cover plates are arranged at the top ends of the temporary storage grooves, material guide pipes are connected to the cover plates, a discharge port is arranged at the bottom end of the mixing tank, and a valve is arranged on the discharge port.

6. The liquid ink mixing and proportioning device according to claim 1, wherein a fixed ring is arranged on the periphery of the mixing tank, a plurality of supporting legs are arranged at the bottom end of the fixed ring, and a plurality of stirring paddles are arranged on a main rotating shaft inside the mixing tank.

7. The liquid ink mixing and proportioning device of claim 1, wherein the bevel gear sets each comprise a first bevel gear and a second bevel gear which are meshed with each other, the first bevel gears are connected with a second rotating rod, and the second bevel gears are connected with threaded rods.

8. The liquid ink mixing and proportioning device of claim 1, wherein a window is provided on the mixing tank.

9. The liquid ink mixing and proportioning device of claim 1, wherein a plurality of sealing rings are arranged between the trigger rod and the limiting ring.

10. The liquid ink mixing and proportioning device according to claim 1, wherein the end of the top block close to the push ring and the end of the push ring close to the top block are both provided with cambered surfaces.