CN212731981U - Proportioning and discharging metering device for water-based ink of reactive dye - Google Patents

Abstract

The utility model discloses an active dyestuff aqueous ink ratio ejection of compact metering device, including the blender, be equipped with a plurality of interface on the blender, the interface in-connection has the pipeline, be equipped with the flow valve on the pipeline, the blender is the spheroid structure of shell form, the inside of blender is equipped with the fender liquid board corresponding with the interface position, be equipped with on the fender liquid board to the outside convex lug of blender, be equipped with the breach that is used for leading the lug on the blender, still be equipped with on the blender with breach position looks vertically spacing groove, the upper portion of blender still is equipped with hybrid motor, be connected with mixed stirring rake after hybrid motor's output shaft passes the blender. The utility model discloses the ratio is accurate, mixes fully.

Description

Proportioning and discharging metering device for water-based ink of reactive dye

Technical Field

The utility model belongs to the technical field of ink proportioning device technique and specifically relates to a reactive dye water-based ink ratio ejection of compact metering device is related to.

Background

The colors are prepared based on three primary colors (namely red, yellow and blue) of raw materials according to different proportions, and the proportion of the three colors of red, yellow and blue is determined for specific colors, so that the accurate metering of the three primary colors is essential in the pigment preparation, and the mixed ink needs to be fully stirred after the accurate preparation to obtain the required color.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome above-mentioned prior art not enough, provide a reactive dye aqueous ink ratio ejection of compact metering device.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides an active dyestuff aqueous ink ratio ejection of compact metering device, includes the blender, be equipped with a plurality of interface on the blender, the interface in-connection has the pipeline, be equipped with the flow valve on the pipeline, the blender is the spheroid structure of shell form, the inside of blender is equipped with the fender liquid board corresponding with the interface position, be equipped with on the fender liquid board to the outside convex lug of blender, be equipped with on the blender and be used for carrying out the breach that leads to the lug, still be equipped with on the blender and put looks vertically spacing groove with the breach, the upper portion of blender still is equipped with hybrid motor, hybrid motor's output shaft is connected with mixed stirring rake after passing the blender.

And the mixer is also provided with a water inlet pipe and a discharge pipe.

The number of the interfaces is three.

The utility model has the advantages that: carry out accurate ratio through the flow valve to the volume of ink, then carry out intensive mixing in the blender for the pigment degree of mixing is higher, still is provided with the water pipe in the blender, when the different pigment of configuration, is used for wasing the inside of blender.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the starter tank of the present invention;

FIG. 3 is a partial side view of the starter tank of the present invention;

fig. 4 is a schematic structural view of a planet carrier, a driving wheel and a driven wheel in the starting tank of the present invention;

FIG. 5 is a schematic structural diagram of the charging bucket of the present invention;

FIG. 6 is a front view of the material tank of the present invention;

FIG. 7 is a schematic structural view of a filtration membrane tube according to the present invention;

FIG. 8 is a cross-sectional view of a filtration membrane tube of the present invention;

FIG. 9 is an enlarged view taken at A in FIG. 8;

FIG. 10 is an enlarged view of FIG. 8 at B;

FIG. 11 is a schematic view showing the assembly relationship between the push plate and the top cover of the present invention;

FIG. 12 is a schematic structural view of the mixing and stirring barrel of the present invention;

fig. 13 is a schematic structural view of the telescopic rod of the present invention;

FIG. 14 is a schematic view of the combination of the horizontal and liquid tubes of the present invention;

FIG. 15 is a schematic structural view of the proportioning device of the present invention;

fig. 16 is a front view of the mixer of the present invention.

In the figure: the device comprises a starting tank 1, a cylinder 11, a gear row 12, a half gear 13, a connecting rod 14, a telescopic rod 15, a spring 16, a lifting plate 17, a guide groove 18, a motor 19, a secondary stirring paddle 110, a planet carrier 111, a driven wheel 112, a driving wheel 113, a connecting rod 114, a main stirring paddle 115, a central shaft 116, a push rod 117, a starting tank inlet 118, a starting tank outlet 119, a slide rail 120, a multistage pump 2, a charging bucket 3, an air pressure hole 31, a propeller 32, an air pipe 33, a bubbling hole 34, a filling material 35, an air compressor 36, an air source 37, a charging bucket motor 38, a charging bucket inlet 39, a charging bucket outlet 310, a perspective window 311, scales 312, a filter membrane pipe 4, a coarse filter membrane pipe 41, a pump body 42, a fine filter membrane pipe 43, a three-way valve 44, a water tank 45, a waste liquid pipe 46, a communication pipe 47, a filter outlet 48, a leather pipe 49, a filter element 410, ball valve 418, spiral column 419, inlet pipe 420, push plate 421, return spring 422, limit ring 423, push block 424, top cover 425, transmission rod 426, filtering inlet 427, pipe 428, mixing and stirring barrel 5, stirring motor 51, stirring paddle 52, stirring barrel inlet 53, stirring barrel outlet 54, partition plate 55, conduit 56, floating ball 57, hinge block 58, arc-shaped groove 59, liquid sealing plate 510, liquid pipe 511, telescopic pipe 512, cavity 513, air inlet 514, hinge base 515, bearing 516, horizontal pipe 517, inner rod 518, outer rod 519, slope 520, proportioning and metering device 6, mixer 61, flow valve 62, liquid blocking plate 63, mixing motor 64, mixing and stirring paddle 65, projection 66, discharge pipe 67, water inlet pipe 68, notch 69, limit groove 610 and interface 611.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments:

as shown in figures 1-16, a reactive dye water-based ink quantitative proportioning production line is characterized in that: the device comprises an initial tank 1, a multistage pump 2, a charging bucket 3, a filtering membrane tube 4, a mixing and stirring barrel 5 and a proportioning metering device 6 which are sequentially connected through pipelines;

as shown in fig. 2 to 5, the starting tank 1 includes a cylinder 11 fixedly connected to a frame of the starting tank 1, the cylinder 11 is fixedly connected to a push rod 117 after passing through the frame of the starting tank 1, two rows of teeth 12 are disposed on left and right sides of the push rod 117, a latch is disposed on each of left and right end faces of the rows of teeth 12, two central shafts 116 are disposed on front and rear end faces of the starting tank 1, the two central shafts 116 are symmetrically disposed with respect to the rows of teeth 12, a half gear 13 corresponding to the rows of teeth 12 is rotatably connected to an outer periphery of the central shafts 116, the half gear 13 and the rows of teeth 12 are in gear engagement transmission, a connecting rod 14 is fixedly connected to a tooth surface of the half gear 13, a lifting plate 17 is disposed at one end of the connecting rod 14 far away from the half gear 13, the connecting rod 14 disposed on the front half gear 13 is rotatably connected to a front side face of the lifting plate 17, and a connecting rod disposed on the rear half gear, be equipped with guide way 18 on the lateral wall of lifter plate 17, articulated piece between connecting rod 14 and the lifter plate 17 is located guide way 18 and can slide along guide way 18 side to side, be equipped with slide rail 120 on the inner wall of the left and right sides of originated jar 1, the left and right sides of lifter plate 17 is equipped with the telescopic link 15 with slide rail 120 matched with, the interior pole of telescopic link 15 and the mutual rigid coupling in top of originated jar 1, the interior pole periphery cover of telescopic link 15 is equipped with spring 16 and makes the motion of lifter plate 17 gentler, and lifter plate 17 up-and-down motion makes telescopic link 15 move along slide rail 120 under the promotion of cylinder 11 to certain guide effect has been played to the motion of lifter plate 17, the upper portion of lifter plate 17 is equipped with motor 19, be connected with main stirring rake 115 after the pivot of motor 19 passes lifter plate 17, the lower part rigid coupling of lifter plate 17 has planet carrier 111, a driving wheel 113 is arranged at the upper part of the main stirring paddle 115, two driven wheels 112 are engaged between the driving wheel 113 and the planet carrier 111, the driving wheel 113 and the driven wheels 112 are connected with each other through a connecting rod 114, a secondary stirring paddle 110 is rotatably connected inside the driven wheels 112, the bottom of the secondary stirring paddle 110 is higher than the bottom of the main stirring paddle 115, the main stirring paddle 115 rotates under the driving of a motor 19, the secondary stirring paddle 110 rotates while revolving around the main stirring paddle 115, and the main stirring paddle 115 and the secondary stirring paddle 110 move up and down under the driving of a lifting plate 17, so that the upper layer liquid and the lower layer liquid are fully mixed; ink and dilution water enter the tube from an initial tank inlet 118 on the side wall of the initial tank 1, are stirred by the main stirring paddle 115 and the secondary stirring paddle 110, are fully mixed with the ink, and are led out into the charging tank 3 through an initial tank outlet 119;

a multistage pump 2 for pressure-feeding ink from the starting tank 1 to the charging bucket 3 is arranged between the starting tank 1 and the charging bucket 3, the number of the multistage pumps 2 is three, the equipment is the prior art, and the description is omitted;

as shown in fig. 6 to 7, the charging bucket 3 comprises a charging bucket inlet 39 connected with an initial bucket outlet 119 through a pipeline, the charging bucket inlet 39 is located at the upper part of the charging bucket 3, an air pressure hole 31 for balancing air pressure is further formed in the upper part of the charging bucket 3, a propeller 32 and a plurality of air pipes 33 are arranged in the charging bucket 3, the propeller 32 is located in the middle of the charging bucket 3, the air pipes 33 are annularly distributed around the air pipes 33, a charging bucket motor 38 is arranged at the bottom of the charging bucket 3, the bottom of the charging bucket 3 is at a certain height from the bottom ground for placing the charging bucket motor 38, after the propeller 32 passes through the lower end face of the charging bucket 3, the propeller and the rotating shaft of the charging bucket motor 38 are driven through a belt, a plurality of bubbling holes 34 are formed in the air pipes 33, an air source 37 is arranged outside the charging bucket 3, the air source 37 is connected with an, a filler 35 is arranged between the air compressor 36 and the air pipe 33, the air is compressed by the air compressor 36, purified by the filler 35 and then enters the air pipe 33, and then is blown into the dye through the 1-drum holes 34, and the propeller 32 continuously rotates, so that the dye in the charging bucket 3 continuously moves, the dye is prevented from layering after standing, in order to observe the residual condition of the ink in the charging bucket 3 conveniently, a perspective window 311 is arranged on the tank body of the charging bucket 3, and a scale 312 for displaying the ink quantity is arranged on one side of the perspective window 311;

the ink is led out to the filtering membrane tube 4 through the charging bucket outlet 310 at the lower part of the charging bucket 3 for filtering, as shown in fig. 8-11, the filtering membrane tube 4 is provided with two filtering membrane tubes 4, the two filtering membrane tubes are respectively a coarse filtering membrane tube 41 and a fine filtering membrane tube 43 which are arranged up and down, the filtering degrees of the filter elements 410 arranged in the coarse filtering membrane tube 41 and the fine filtering membrane tube 43 are different, only the structure of the coarse filtering membrane tube 41 is explained here, the coarse filtering membrane tube 41 comprises a tube body 428 and an end cover 412 which are screwed with each other, the filter element 410 is mutually jointed with the tube body 428 after the filter element 410 extends into the tube body 428, a sealing ring 411 is arranged at the joint, an elastic clamp 413 is arranged at the right side of the end cover 412, the right end of the elastic clamp 413 is composed of a plurality of elastic sheets which are radially and outwardly divergent, a nut 415 is screwed at the left end of the elastic clamp 413, a pressing ring 414, the inner hole structure of the pressing ring 414 is matched with the elastic clamp 413, when the connection and installation are carried out, the guide pipe is inserted into the elastic clamp 413, the nut 415 is rotated, and the pressing ring 414 is pressed towards the right, so that the elastic clamp 413 is closed, the guide pipe is clamped, the operation is convenient, and the installation and the disassembly of the guide pipe are convenient;

the upper portion of the filter element 410 is provided with an inlet pipe 420, the upper portion of the inlet pipe 420 extends to a pipe body 428, the inner portion of the inlet pipe 420 is connected with a push plate 421 in a sliding manner, the push plate 421 is in clearance fit with the inner wall of the inlet pipe 420, the upper portion of the push plate 421 is provided with a push block 424, the lower portion of the push block 424 is sleeved with a return spring 422, the inner wall of the inlet pipe 420 is provided with a limit ring 423 for limiting the movement height of the push block 424, the upper portion of the pipe body 428 is fixedly connected with a funnel-shaped water tank 45, a ball valve 418 is arranged at the communication position of the water tank 45 and the pipe body 428, the left end and the right end of the ball valve 418 are fixedly connected with screw columns 419, one ends, far away from the ball valve, of the screw columns 419 are mutually fixed with a top cover 425, a transmission rod 426 is arranged between the push block 424, a delivery pipe 417 is arranged at the lower part of the pipe body 428, the delivery pipe 417 is communicated to the inside of the filter element 410, a pump body 42 is further connected to the delivery pipe 417, a leather hose 49 is connected between the pump body 42 and the water tank 45, and a waste liquid pipe 46 is further arranged on the water tank 45; the ink flows into the filter element 410 from the right side, seeps into the tube 428 after being filtered by the filter element 410, and then flows out from the left side of the tube 428, after long-time use, a large amount of impurities can be accumulated on the filter element 410, so that the filtering effect of the filter element 410 is poor, the ink seeped out from the filter element 410 is reduced, the liquid pressure inside the filter element 410 is increased, the push plate 421 is pressed upwards, the top cover 425 on the left side is rotated, the ball valve 418 is rotated to the opening position, cleaning water flows into the tube 428 from the water tank 45 through the ball valve 418 to perform reverse flushing on the filter element 410, the manual operation can also be performed, the handle 416 is pulled, the ball valve 418 is rotated to the opening position, the cleaned sewage is pressed back into the water tank 45 through the pump body 42 to be recycled, and finally is led out;

a communicating pipe 47 is connected between the coarse filtration membrane pipe 41 and the fine filtration membrane pipe 43, the upper part of the communicating pipe 47 is communicated with a pipe body 428 of the coarse filtration membrane pipe 41, the lower part of the communicating pipe 47 is communicated with the filter element 410 in the fine filtration membrane pipe 43, right end conduits of the coarse filtration membrane pipe 41 and the fine filtration membrane pipe 43 are connected with a filtration inlet 427 through a three-way valve 44, left end conduits of the coarse filtration membrane pipe 41 and the fine filtration membrane pipe 43 are connected with a filtration outlet 48 through the three-way valve 44, and the structure ensures that the filtration membrane pipe 4 only performs coarse filtration, fine filtration or coarse filtration and fine filtration; when only coarse filtration or fine filtration is needed, the valve on the three-way valve 44 communicated with the fine filtration membrane tube 43 or the valve communicated with the coarse filtration membrane 43 is closed, when coarse filtration is needed first and then fine filtration is needed, the valve on the right three-way valve 44 communicated with the fine filtration membrane tube 43 and the valve on the left three-way valve 44 communicated with the coarse filtration membrane tube 41 are closed, and ink flows into the filtration outlet 48 from the guide outlet of the fine filtration membrane tube 43 after being filtered by the coarse filtration membrane tube 41 and the fine filtration membrane tube 43;

as shown in fig. 12 to 14, the mixing and stirring barrel 5 includes a stirring barrel inlet 53 disposed at the upper portion of the barrel body, the stirring barrel inlet 53 is connected to the filtering outlet 48 through a pipeline, a partition plate 55 is disposed in the mixing and stirring barrel 5 to partition the interior of the mixing and stirring barrel 5 into an upper cavity and a lower cavity, a stirring motor 51 is disposed at the upper portion of the mixing and stirring barrel 5, a rotating shaft of the stirring motor 51 penetrates through the mixing and stirring barrel 5 and is connected to a stirring paddle 52, the stirring paddle 52 is disposed in the upper cavity, a conduit 56 is disposed on a side wall of the mixing and stirring barrel 5, two ends of the conduit 56 are respectively communicated with the upper cavity and the lower cavity, an upper end interface of the conduit 56 is communicated with the bottom of the upper cavity, a lower end interface of the conduit 56 is communicated with the upper portion of the lower cavity, a hinge block 58 is disposed on an outer wall of the conduit 56 extending into the lower cavity, arc-shaped grooves 59 for guiding the liquid sealing plate 510 are arranged on the front side wall and the rear side wall of the mixing and stirring barrel 5, a floating ball 57 is arranged at the lower part of the liquid sealing plate 510, the floating ball 57 and the liquid sealing plate 510 are fixedly connected with each other and are respectively positioned at two sides of a hinge block 58, a telescopic pipe 512 is hinged at one side of the liquid sealing plate 510, which is far away from the guide pipe 56, the telescopic pipe 512 comprises an inner rod 518 and an outer rod 519, the inner rod 518 is connected with the outer rod 519 in a sliding manner, a cavity 513 is formed in the outer rod 519 after the inner rod 518 and the outer rod 519 are separated from each other, a hinge base 515 which is hinged with the telescopic pipe 512 is arranged on the inner wall of the mixing and stirring barrel 5, a horizontal pipe 517 is arranged at the hinge position of the telescopic pipe 512 and the hinge base 515, a liquid pipe 511 is sleeved outside the horizontal pipe 517 through the hinge base 515, the liquid pipe, an air inlet 514 is arranged on the vertical section of the liquid pipe 511, a certain amount of liquid is injected into the liquid pipe 511, a stirring barrel outlet 54 is arranged at the bottom of the mixing and stirring barrel 5, and a slope 520 inclined towards the outlet direction of the stirring barrel is also arranged at the bottom of the mixing and stirring barrel 5; when the ink at the lower part of the mixing and stirring barrel 5 is gradually reduced, the floating ball 57 descends, the liquid sealing plate 510 rotates clockwise, the ink flows out of the conduit 56, so that the ink at the lower part of the mixing and stirring barrel 5 is increased, the floating ball 57 ascends, the ink ascends to compress the gas at the upper part, the compressed gas enters the liquid pipe 511 through the gas inlet 514, the inner rod 518 is pushed to move outwards, the liquid sealing plate 510 rotates anticlockwise to seal the conduit 56, and the liquid at the lower part of the mixing and stirring barrel 5 is always kept at a constant amount;

as shown in fig. 15 to 16, the proportioning meter 6 includes a mixer 61, the mixer 61 is provided with three ports 611 for communicating with the mixer outlet 54, a flow valve 62 is provided on a pipeline connecting the mixer outlet 54 and the ports 611, the mixer 61 is a shell-shaped spherical structure, a liquid baffle 63 corresponding to the ports 611 is provided inside the mixer 61, a protrusion 66 protruding to the outside of the mixer 61 is provided on the liquid baffle 63, a notch 69 for guiding the protrusion 66 is provided on the mixer 61, a limit groove 610 perpendicular to the notch 69 is further provided on the mixer 61, when the protrusion 66 drives the liquid baffle 63 to move upward, the lower end of the ports 611 is completely blocked, the protrusion 66 is rotated to clamp the protrusion 66 into the limit groove 610 for positioning, a water inlet pipe 68 and a water outlet pipe 67 are further provided on the mixer 61, the upper part of the mixer 61 is also provided with a mixing motor 64, and an output shaft of the mixing motor 64 penetrates through the mixer 61 and is connected with a mixing and stirring paddle 65; mix agitator 5's quantity is three, the inside is equipped with three kinds of inks of red yellow blue respectively, the proportion of three kinds of colours is confirmed respectively according to the ratio colour, control flow valve 62's velocity of flow, make the ink mix after getting into blender 61, the ink after mixing passes through discharging pipe 67 and flows into in the filling bucket, the colour when the ratio only needs one or two kinds, close behind the flow valve 62 that corresponds the colour, seal the bottom of the interface 611 that corresponds through sliding fender liquid board 63, avoid the ink to flow in, after finishing using, open inlet tube 68 and wash the inside of blender 61.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (3)

1. The utility model provides a proportioning discharge metering device of water-based ink of reactive dye which characterized in that: including blender (61), be equipped with a plurality of interface (611) on blender (61), interface (611) in-connection has the pipeline, be equipped with flow valve (62) on the pipeline, blender (61) are the spherical structure of shell form, the inside of blender (61) is equipped with and keeps off liquid board (63) corresponding with interface (611) position, be equipped with on keeping off liquid board (63) to outside convex lug (66) of blender (61), be equipped with on blender (61) and be used for carrying out breach (69) that lead to lug (66), still be equipped with on blender (61) with breach (69) position looks vertically spacing groove (610), the upper portion of blender (61) still is equipped with hybrid motor (64), the output shaft of hybrid motor (64) is connected with mixing paddle (65) after passing blender (61).

2. The proportioning and discharging metering device for the water-based ink of the reactive dye as claimed in claim 1, wherein: the mixer (61) is also provided with a water inlet pipe (68) and a water outlet pipe (67).

3. The proportioning and discharging metering device for the water-based ink of the reactive dye as claimed in claim 1, wherein: the number of the interfaces (611) is three.

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