CN206500223U - A kind of new ink milling apparatus - Google Patents

Abstract

The utility model provides a kind of new ink milling apparatus, including base, dangling portion, clamping part, means of abrasion, water cooling part and rewinding tank, the upper surface of base sets dangling portion, clamping part is set on dangling portion, means of abrasion is arranged at the upper surface of dangling portion by clamping part, and the means of abrasion is set to connection water cooling part, rewinding tank is set to connect means of abrasion by discharge nozzle；Means of abrasion is set to include sand cylinder body, cover and mixing part, and mixing part is set to be made up of stirring motor, agitating shaft, the first helical mixing blade, the second helical mixing blade and the 3rd helical mixing blade；Water cooling part is set to include refrigeration case, cold water storage cistern and ink cooler bin.The utility model uses the equipment, can realize the good grinding of ink raw material, and ensures the temperature with high efficiency processing of grinding cavit and feed liquid after the completion of grinding in its process of lapping, reduces production cost, and improve production efficiency.

Description

A kind of new ink milling apparatus

Technical field

The utility model is related to Printing ink producing equipment technical field, more particularly to a kind of new ink milling apparatus.

Background technology

The important materials for being used to print that ink is made up of link stuff (resin), pigment, filler, auxiliary agent and solvent etc., It is shown pattern, word on stock by printing.The production procedure of ink is generally comprised：Dispensing, it is pre-dispersed, grinding, Scattered stirring and pack, for ensure during printing can vividness and glossiness more smooth, uniform and that improve printed matter, therefore It is required that bulky grain or pockets of raw material, which are ground, is dispersed to certain fineness in the production process of ink, and ink is sanded Machine is as one of visual plant in Printing ink producing technique, and the quality of its performance and grinding precision directly affects ink finished product Quality.But, there are the following problems in actual use for the existing sand mill for ink grinding raw material：

1st, the fluid temperature of sand mill discharging opening outflow is very high, it is necessary to can be just further processed after Temperature fall, certainly The method so cooled is usually to open the upper lid of storage tank to be cooled, and reduces the partial impurities in production efficiency, air Also raw material can be polluted, while the health of the gases affect operating personnel of volatilization.

2nd, when sand mill works, material and abrasive media in its cylinder produce strong collision in the case where high speed is stirred, rubbed Wipe and shear force, and to ensure grinding quality, often the working time is longer for sand mill, therefore will produce substantial amounts of heat, The overall service life of equipment can be not only reduced, and the effective ingredient that high temperature is also easily caused in ink raw material is decomposed, however, Cooling treatment effect during existing sand mill abrasive ink raw material is not good.

3rd, at present, the structure that sand mill is mostly coordinated using smooth abrasive disk with mill ball realizes ink raw material repeatedly Grinding, which milling time is longer, and due to be ground to the ink material of fineness with not yet to desired ink material still Mixed grinding, it is therefore provided that big energy-consuming.

The content of the invention

Main purpose of the present utility model is that ink can be realized there is provided one kind by solving problems of the prior art The good grinding of raw material, and ensure the temperature with high efficiency processing of grinding cavit and feed liquid after the completion of grinding in its process of lapping, drop Low production cost, and improve the new ink milling apparatus of production efficiency.

In order to solve the above technical problems, the technical solution adopted in the utility model is：A kind of new ink milling apparatus, Wherein described new ink milling apparatus includes base, dangling portion, clamping part, means of abrasion, water cooling part and rewinding Tank, the upper surface of the base is set sets the clamping part, the grind section on the dangling portion, the dangling portion Divide the upper surface that the dangling portion is arranged at by the clamping part, and the means of abrasion is set to connect the water cooling portion Point, the rewinding tank is set to connect the means of abrasion by discharge nozzle；

The means of abrasion is set to include sand cylinder body, cover and mixing part, the inner chamber of the sand cylinder body Set gradually from top to bottom as one-level grinding chamber, secondary grinder chamber and three-level grinding chamber, and the one-level grinding chamber, described two grades It is set to separate with the second screen pack by the first screen pack between grinding chamber and the three-level grinding chamber, the three-level grinding The bottom of chamber sets the 3rd screen pack, and the cover is arranged at the top of the sand cylinder body, and coaxial line is set on the cover The mixing part is put, the one-level grinding chamber, the secondary grinder chamber in the three-level grinding chamber with being respectively provided with mill ball；

The mixing part is set to by stirring motor, agitating shaft, the first helical mixing blade, the second helical mixing blade With the 3rd helical mixing blade composition, the stirring motor is arranged at the center of the cover, and the output shaft of the stirring motor Through the cover and the agitating shaft is connected, the agitating shaft is arranged on the axis of the sand cylinder chamber body, and Coaxial line sets gradually first helical mixing blade, second helical mixing blade and institute from top to bottom on the agitating shaft The 3rd helical mixing blade is stated, first helical mixing blade, second helical mixing blade are stirred with the 3rd spiral Mix and some projections are respectively provided with blade；

The water cooling part is set to include refrigeration case, cold water storage cistern and ink cooler bin, and the refrigeration case is set to connection A filling pipe is also set up on the cold water storage cistern, and the refrigeration case, the cold water storage cistern is set to connect the ink cooler bin, described The S-type structure of discharge nozzle passes through the ink cooler bin, and a temperature sensor and return duct are also set up on the discharge nozzle, described Temperature sensor is arranged at one end that the ink cooler bin is passed on the discharge nozzle, and the two ends of the return duct are connected respectively In one end of the into and out ink cooler bin on the discharge nozzle.

Further, the dangling portion is set to include elastic device and fixed plate, and the lower end of the elastic device is set It is placed in the upper surface of the base, and the upper end of the elastic device is arranged at the lower surface of the fixed plate, the fixed plate Upper surface sets the clamping part.

Further, the mesh of first screen pack, second screen pack and the 3rd screen pack be set to according to It is secondary to reduce.

Further, first helical mixing blade, second helical mixing blade and the 3rd auger Raised specification on blade is set to be sequentially reduced, and first helical mixing blade, second helical mixing blade Increase successively with the raised density on the 3rd helical mixing blade.

Further, the sand cylinder body is set to include outer cylinder body and inner barrel, the outer cylinder body and the inner cylinder Body coaxial line is set, and a cooling chamber is formed between the outer cylinder body and the inner barrel, and the upper end of the outer cylinder body sets one Water inlet, and the lower end of the outer cylinder body sets a delivery port, the water inlet is disposed as connecting described cold with the delivery port But chamber, the water inlet is set to connect the cold water storage cistern with the pump housing by pipeline, the delivery port be set to by pipeline and The pump housing connects the refrigeration case.

Further, the means of abrasion is set to also include scraper, the one-level grinding chamber, the secondary grinder Chamber in the three-level grinding chamber with being respectively provided with the scraper, and the scraper is set to by connecting rod and material scraping plate group Into one end of the connecting rod is vertically installed on the agitating shaft, and the other end of the connecting rod is vertically arranged the scraper Plate, the structure setting of the material scraping plate is to be engaged with the structure of the inner chamber of the inner barrel.

Further, the clamping part is set to include power set and gripping block, and the power set are set to drive The dynamic gripping block clamps the means of abrasion.

The utility model has the advantages and positive effects of：

(1) cooperation of base, dangling portion, clamping part, means of abrasion, water cooling part and rewinding tank, Neng Goushi are passed through The good grinding of existing ink raw material, and ensure in its process of lapping after the completion of grinding cavit and grinding at the temperature with high efficiency of feed liquid Reason, reduces production cost.

(2) by sand cylinder body, cover and the mixing part of means of abrasion, and sand cylinder body inner chamber from up to Under the one-level grinding chamber, secondary grinder chamber and the three-level grinding chamber that set gradually, one-level grinding chamber, secondary grinder chamber and three-level are ground Chamber can carry out classified grinding, can be prevented effectively from the ink material for being ground to fineness with not yet being mixed to desired ink material Grinding so that milling time is longer repeatedly, so that the big energy-consuming problem caused.

(3) refrigeration case, cold water storage cistern and the ink cooler bin set by water cooling part, is carried out recirculated water by refrigeration case cold But, to realize supply of the water in cold water storage cistern to means of abrasion and ink cooler bin part recirculated cooling water so that means of abrasion When speed lapping works can good heat radiating, and in temperature sensor is to discharge nozzle ink material temperature real-time detection Under, the keying of control valve on control return duct, it is ensured that the quick cooling of ink material after grinding.

(4) by the elastic device and fixed plate structure of dangling portion, when means of abrasion carries out ink material grinding, bullet Property device causes stirring action lower swing of the fixed plate in means of abrasion, so that filling for ink material is realized in assisted milling part Divide and uniform grinding, further shorten milling time, and improve production efficiency.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model.

Fig. 2 is the positional structure schematic diagram between base, dangling portion, clamping part and means of abrasion in Fig. 1.

Fig. 3 is the close-up schematic view of the first helical mixing blade in Fig. 2.

Fig. 4 is the close-up schematic view of the second helical mixing blade in Fig. 2.

Fig. 5 is the close-up schematic view of the 3rd helical mixing blade in Fig. 2.

In figure：10- bases, 20- dangling portions, 201- elastic devices, 202- fixed plates, 30- clamping parts, 301- power Device, 302- gripping blocks, 40- means of abrasion, 401- sand cylinder bodies, 402- covers, 403- one-level grinding chambers, bis- grades of 404- is ground Mill chamber, 405- three-level grinding chambers, the screen packs of 406- first, the screen packs of 407- second, the screen packs of 408- the 3rd, 409- stirring electricity Machine, 410- agitating shafts, the helical mixing blades of 411- first, the helical mixing blades of 412- second, the helical mixing blades of 413- the 3rd, 414- outer cylinder bodies, 415- inner barrels, 416- cooling chambers, 417- water inlets, 418- delivery ports, 419- scrapers, 50- water coolings portion Point, 501- refrigeration cases, 502- cold water storage cisterns, 503- ink cooler bins, 60- rewinding tanks, 70- discharge nozzles, 701- temperature sensors, 702- return ducts.

Embodiment

In order to be better understood from the utility model, traveling one is entered to the utility model with reference to specific embodiments and the drawings The description of step.

As Figure 1-Figure 5, a kind of new ink milling apparatus, including base 10, dangling portion 20, clamping part 30th, means of abrasion 40, water cooling part 50 and rewinding tank 60, the upper surface of base 10 are set on dangling portion 20, dangling portion 20 Clamping part 30 is set, and means of abrasion 40 is arranged at the upper surface of dangling portion 20, and the means of abrasion by clamping part 30 40 are set to connection water cooling part 50, and rewinding tank 60 is set to connect means of abrasion 40 by discharge nozzle 70.

Means of abrasion 40 is set to include sand cylinder body 401, cover 402 and mixing part, sand cylinder body 401 it is interior Chamber sets gradually as one-level grinding chamber 403, secondary grinder chamber 404 and three-level grinding chamber 405, and one-level grinding chamber from top to bottom 403rd, it is set between secondary grinder chamber 404 and three-level grinding chamber 405 by 407 points of the first screen pack 406 and the second screen pack Separate, the bottom of three-level grinding chamber 405 sets the 3rd screen pack 408, and cover 402 is arranged at the top of sand cylinder body 401, and Coaxial line is set in mixing part, one-level grinding chamber 403, secondary grinder chamber 404 and three-level grinding chamber 405 on the cover 402 Mill ball is set, by one-level grinding chamber 403, the classified grinding of secondary grinder chamber 404 and three-level grinding chamber 405, can effectively be kept away Exempt to be ground to the ink material of fineness and not yet to desired ink material mixed grinding so that milling time is longer repeatedly, So as to the big energy-consuming problem caused.

Mixing part is set to be stirred by stirring motor 409, agitating shaft 410, the first helical mixing blade 411, the second spiral Mix the helical mixing blade 413 of blade 412 and the 3rd to constitute, stirring motor 409 is arranged at the center of cover 402, and stirring electricity The output shaft of machine 409 is through cover 402 and connects agitating shaft 410, and agitating shaft 410 is arranged in the inner chamber of sand cylinder body 401 On axis, and coaxial line sets gradually the first helical mixing blade 411, the second auger from top to bottom on the agitating shaft 410 The helical mixing blade 413 of blade 412 and the 3rd, the first helical mixing blade 411, the second helical mixing blade 412 and the 3rd spiral shell Some projections are respectively provided with rotation stirring vane 413, when carrying out ink material grinding, stirring motor 409 drives agitating shaft 410 to revolve Turn, the first helical mixing blade 411, the second helical mixing blade 412 and the assisted milling ball of the 3rd helical mixing blade 413 are carried out The grinding stirring of ink material, improves production efficiency.

Water cooling part 50 is set to include refrigeration case 501, cold water storage cistern 502 and ink cooler bin 503, and refrigeration case 501 is set To also set up a filling pipe on connection cold water storage cistern 502, and the refrigeration case 501, cold water storage cistern 502 is set to connect ink cooler bin 503, the S-type structure of discharge nozzle 70 passes through and also sets up the He of a temperature sensor 701 on ink cooler bin 503, and the discharge nozzle 70 Return duct 702, temperature sensor 701 is arranged at one end that ink cooler bin 503 is passed on discharge nozzle 70, the two of return duct 702 End is connected to one end of into and out ink cooler bin 503 on discharge nozzle 70, is carried out recirculated water by refrigeration case 501 Cooling, to realize supply of the water in cold water storage cistern 502 to means of abrasion 40 and the part recirculated cooling water of ink cooler bin 503, makes Means of abrasion 40 being capable of good heat radiating, and the ink material in temperature sensor 701 is to discharge nozzle 70 when speed lapping works Under the real-time detection of material temperature degree, the keying of control valve on control return duct 702, it is ensured that the quick cooling of ink material after grinding.

Dangling portion 20 is set to include elastic device 201 and fixed plate 202, and the lower end of elastic device 201 is arranged at bottom The upper surface of seat 10, and the upper end of the elastic device 201 is arranged at the lower surface of fixed plate 202, the upper surface of fixed plate 202 is set Clamping part 30 is put, when means of abrasion 40 carries out ink material grinding, elastic device 201 causes fixed plate 202 in grind section The stirring action lower swing divided in 40, so that the abundant of ink material and uniform grinding are realized in assisted milling part 40, shortening is ground Time consuming, and production efficiency is improved.

First screen pack 406, the mesh of the second screen pack 407 and the 3rd screen pack 408 are set to be sequentially reduced, to realize The classified grinding of ink material, reduces energy consumption.

Projection on first helical mixing blade 411, the second helical mixing blade 412 and the 3rd helical mixing blade 413 Specification be set to be sequentially reduced, and the first helical mixing blade 411, the second helical mixing blade 412 and the 3rd auger Raised density on blade 413 increases successively, and auxiliary ensures when ink material is milled to discharge at different levels in process of lapping Fineness.

Sand cylinder body 401 is set to include outer cylinder body 414 and inner barrel 415, and outer cylinder body 414 is coaxial with inner barrel 415 Line is set, and a cooling chamber 416 is formed between outer cylinder body 414 and inner barrel 415, and the upper end of outer cylinder body 414 sets a water inlet 417, and the lower end of the outer cylinder body 414 sets a delivery port 418, water inlet 417 is disposed as connecting cooling chamber with delivery port 418 416, water inlet 417 is set to connect cold water storage cistern 502 with the pump housing by pipeline, and delivery port 418 is set to by pipeline and the pump housing Refrigeration case 501 is connected, passes through the cooperation of cold water storage cistern 502, water inlet 417, delivery port 418, refrigeration case 501 and cooling chamber 416, energy Effective cooling when water cooling part 50 carries out speed lapping stirring to sand cylinder body 401 is enough realized, to avoid its temperature too high The damage caused to internal components etc., extends whole service life.

Means of abrasion 40 is set to also include scraper 419, and one-level grinding chamber 403, secondary grinder chamber 404 are ground with three-level Scraper 419 is respectively provided with mill chamber 405, scraper 419 is set to be made up of connecting rod and material scraping plate, one end of connecting rod Be vertically installed on agitating shaft 410, and the other end of the connecting rod is vertically arranged material scraping plate, the structure setting of material scraping plate be with it is interior The structure of the inner chamber of cylinder 415 is engaged, the ink that scraper 419 will can adhere on the wall of inner barrel in process of lapping 415 Material is struck off, and saves production cost.

Clamping part 30 is set to include power set 301 and gripping block 302, and power set 301 are set to driving and clamped Block 302 clamps means of abrasion 40 so that gripping block 302 is close on the wall of means of abrasion 40, realizes means of abrasion 40 bottom of at Fixation on seat 10, is ground to the swing of ink material with assisted milling part 40, and avoids it from toppling over and operating personnel are caused Injury.

Cover 402 is set to be fastened by bolts in the top of sand cylinder body 401.

The new ink milling apparatus provided using the utility model, can realize the good grinding of ink raw material, And ensure the temperature with high efficiency processing of grinding cavit and feed liquid after the completion of grinding in its process of lapping, production cost is reduced, and improve Production efficiency.When the device is in use, the power set 301 by clamping part 30 and the cooperation of gripping block 302, by grind section Divide 40 to be fixed on base 10, cover 402 is fastened by bolts in the top of sand cylinder body 401, then cylinder is passed through by feed pipe The inner chamber of the connection sand cylinder of lid 402 body 401 adds ink raw material, while starting stirring motor 409 so that the band of agitating shaft 410 Dynamic first helical mixing blade 411, the second helical mixing blade 412 are rotated with the 3rd helical mixing blade 413, and auxiliary one-level is ground Mill chamber 403, secondary grinder chamber 404 are ground with mill ball in three-level grinding chamber 405, and the ink material in grinding chambers at different levels is ground When being milled to certain fineness, then enter next grinding chamber by screen packs at different levels, be prevented effectively from the ink material for being ground to fineness With not yet to desired ink material mixed grinding so that milling time is longer repeatedly, so that the big energy-consuming problem caused, is grinding During mill, start refrigeration case 501 and work, and pass through water inlet 417 and delivery port 418 and cold water storage cistern 502 and refrigeration case 501 Connection carries out recirculated water cooling, to realize effective cooling during the stirring of the speed lapping of sand cylinder body 401, after grinding a period of time, Open the control valve on discharge nozzle 70 so that the ink material that fineness is ground in three-level grinding chamber 405 is S-type by discharge nozzle 70 Structure is cooled down through ink cooler bin 503, if the temperature that temperature sensor 701 detects now discharge nozzle 70 is not up to rule Determine feed liquid and reclaim standard, then open the control valve on return duct 702 so that the ink material after grinding is again introduced into ink cooling Case 503 is cooled down, until the temperature that temperature sensor 701 detects discharge nozzle 70 has reached that regulation feed liquid reclaims standard, is then closed Control valve on return duct 702, opens the control valve close to rewinding tank 60 on discharge nozzle 70 so that the ink material cooled down is returned Receive into rewinding tank 60, during being somebody's turn to do, the connection cold water storage cistern 502 of ink cooler bin 503 and refrigeration case 501, it is ensured that cooled down in its case The replacing of water, in addition, according to production requirement, feed pipe continuously can add ink raw material to the inner chamber of sand cylinder body 401, repeat Above-mentioned steps, realize the batch high-efficient grinding of ink raw material.

Embodiment of the present utility model is described in detail above, but the content is only of the present utility model preferable Embodiment, it is impossible to be considered as being used to limit practical range of the present utility model.All impartial changes made according to the utility model scope Change and improvement etc., all should still be belonged within this patent covering scope.

Claims (7)

1. a kind of new ink milling apparatus, it is characterised in that：The new ink milling apparatus includes base, wag Point, clamping part, means of abrasion, water cooling part and rewinding tank, the upper surface of the base sets the dangling portion, described to shake Pendulum sets the clamping part on part, and the means of abrasion is arranged at the upper table of the dangling portion by the clamping part Face, and the means of abrasion is set to connect the water cooling part, the rewinding tank is set to connect the grinding by discharge nozzle Part；

The means of abrasion is set to include sand cylinder body, cover and mixing part, and the inner chamber of the sand cylinder body is from upper Set gradually under as one-level grinding chamber, secondary grinder chamber and three-level grinding chamber, and the one-level grinding chamber, the secondary grinder It is set to separate with the second screen pack by the first screen pack between chamber and the three-level grinding chamber, the three-level grinding chamber Bottom sets the 3rd screen pack, and the cover is arranged at the top of the sand cylinder body, and coaxial line sets institute on the cover Mixing part is stated, the one-level grinding chamber, the secondary grinder chamber in the three-level grinding chamber with being respectively provided with mill ball；

The mixing part is set to by stirring motor, agitating shaft, the first helical mixing blade, the second helical mixing blade and Three helical mixing blades are constituted, and the stirring motor is arranged at the center of the cover, and the output shaft of the stirring motor is passed through The cover simultaneously connects the agitating shaft, and the agitating shaft is arranged on the axis of the sand cylinder chamber body, and this is stirred Mix on axle coaxial line from top to bottom and set gradually first helical mixing blade, second helical mixing blade and described the Three helical mixing blades, first helical mixing blade, second helical mixing blade and the 3rd auger leaf Some projections are respectively provided with piece；

The water cooling part is set to include refrigeration case, cold water storage cistern and ink cooler bin, and it is described that the refrigeration case is set to connection A filling pipe is also set up on cold water storage cistern, and the refrigeration case, the cold water storage cistern is set to connect the ink cooler bin, the discharging S-type structure is managed through the ink cooler bin, and a temperature sensor and return duct, the temperature are also set up on the discharge nozzle Sensor is arranged at one end that the ink cooler bin is passed on the discharge nozzle, and the two ends of the return duct are connected to institute State one end of the into and out ink cooler bin on discharge nozzle.

2. new ink milling apparatus according to claim 1, it is characterised in that：The dangling portion is set to include Elastic device and fixed plate, the lower end of the elastic device are arranged at the upper surface of the base, and the upper end of the elastic device The lower surface of the fixed plate is arranged at, the upper surface of the fixed plate sets the clamping part.

3. new ink milling apparatus according to claim 1, it is characterised in that：First screen pack, described The mesh of two screen packs and the 3rd screen pack is set to be sequentially reduced.

4. new ink milling apparatus according to claim 1, it is characterised in that：First helical mixing blade, Second helical mixing blade is set to be sequentially reduced with the raised specification on the 3rd helical mixing blade, and described Raised density on first helical mixing blade, second helical mixing blade and the 3rd helical mixing blade is successively Increase.

5. new ink milling apparatus according to claim 1, it is characterised in that：The sand cylinder body is set to bag Include outer cylinder body and inner barrel, the outer cylinder body is set with the inner barrel coaxial line, and the outer cylinder body and the inner barrel it Between form a cooling chamber, the upper end of the outer cylinder body sets a water inlet, and the lower end of the outer cylinder body sets a delivery port, described Water inlet is disposed as connecting the cooling chamber with the delivery port, and the water inlet is set to connect institute with the pump housing by pipeline Cold water storage cistern is stated, the delivery port is set to connect the refrigeration case with the pump housing by pipeline.

6. new ink milling apparatus according to claim 5, it is characterised in that：The means of abrasion is set to also wrap Include in scraper, the one-level grinding chamber, the secondary grinder chamber and the three-level grinding chamber and be respectively provided with the scraper, The scraper is set to be made up of connecting rod and material scraping plate, and one end of the connecting rod is vertically installed in the agitating shaft On, and the other end of the connecting rod is vertically arranged the material scraping plate, the structure setting of the material scraping plate is and the inner barrel The structure of inner chamber is engaged.

7. new ink milling apparatus according to claim 1, it is characterised in that：The clamping part is set to include Power set and gripping block, the power set are set to drive the gripping block to clamp the means of abrasion.