CN112095260A - Blending processing stirring device - Google Patents

Abstract

The invention discloses a blending processing and stirring device, which comprises a dyeing box, a water inlet pipeline arranged on the dyeing box, a water outlet hole arranged below the water inlet pipeline and a water inlet device arranged on the water inlet pipeline, wherein the water inlet pipeline is arranged on the dyeing box; the method is characterized in that: the water inlet device comprises a water inlet lug, a water inlet rod arranged on the water inlet lug, a water inlet spring sleeved outside the water inlet rod, a water inlet fixed block sleeved outside the water inlet rod, a tooth block arranged on the water inlet rod, a pulling cavity arranged on the water inlet tooth block and a pulling device arranged in the pulling cavity; the amount of the coloring agent is controlled through the water inflow, the amount of the coloring agent which is taken is used when the coloring agent which is discharged is placed into the pre-storage chamber, so that the coloring agent is not uniformly dyed due to the fact that the coloring agent is wetted and caked, when the coloring agent is pasty in the stirring process, the rotating cutting piece can cut and smash the pasty coloring agent, and the smashed pasty coloring agent is subjected to air injection stirring through the first air injection pipeline, so that the coloring agent in the stirring box is stirred more uniformly.

Description

Blending processing stirring device

Technical Field

The invention belongs to the technical field of blending processing, and particularly relates to a blending processing and stirring device.

Background

The dyeing machine is used for the processes of dyeing, bleaching, scouring, washing and the like of ready-made clothes such as woolen sweaters, silk, acrylic fibers, cotton sweaters and the like, can also be used for the bleaching and dyeing treatment of finished products such as gloves, socks, towels and the like, and is ideal bleaching and dyeing equipment for finished products with wide application range. In the dyeing process, the mixing uniformity of the dyeing agent directly influences the dyeing effect, the existing dye is generally in a powder structure, when the dye is not uniformly stirred, the dye forms paste at the bottom, and the dye is difficult to stir and dilute.

Disclosure of Invention

The invention provides a blending processing device capable of uniformly stirring in order to overcome the defects of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: a blending processing and stirring device comprises a dyeing box, a water inlet pipeline arranged on the dyeing box, a water outlet arranged below the water inlet pipeline and a water inlet device arranged on the water inlet pipeline; the water inlet device comprises a water inlet lug, a water inlet rod arranged on the water inlet lug, a water inlet spring sleeved outside the water inlet rod, a water inlet fixed block sleeved outside the water inlet rod, a tooth block arranged on the water inlet rod, a pulling cavity arranged on the water inlet tooth block and a pulling device arranged in the pulling cavity; the water inlet convex block can move left and right in the water inlet pipeline.

The water pipe is inserted into the water inlet pipeline, the water inlet lug moves backwards under the pressure of water, the water inlet lug drives the water inlet rod to move backwards, the water inlet spring is said by the water inlet spring, the water inlet rod moves to drive the tooth block to move backwards, when the water inlet lug continues to move backwards, the water outlet hole is leaked, and water flows out of the water outlet hole and enters the dyeing box; the water outlet is automatically opened through the water quantity, the structure is simple, more convenience and rapidness are realized, the stirring efficiency is improved, and more sufficient stirring is realized.

The pulling device comprises a pulling gear, a winding roller arranged on the pulling gear, a winding rope arranged on the winding roller, a switch door arranged on the winding rope, a feeding box arranged on the outer opening door, a pulling spring arranged on the switch door, a discharging pipe arranged below the switch door and a warning device arranged on one side of the switch door; one end of the switch door is movably connected with the interior of the feeding box, the switch door is turned up and down in the feeding box, one end of the pulling spring is fixedly connected with the switch door, the other end of the pulling spring is fixedly connected with the feeding box, and the tooth block is meshed with the pulling gear.

The tooth block moves backwards, is meshed with the pulling gear to drive the pulling gear to select and mount, the pulling gear rotates to drive the winding roller to rotate, the winding roller rotates to drive the winding rope to pay off, the winding rope drives the switch door to move upwards, the opening of the charging box is opened, and the coloring agent flows out of the discharging pipe; come the distance of control gear removal through the water yield, when the water yield is big, the range that the pole of intaking removed is big, the range that drives the tooth piece and remove is big, make the pulling gear continuously rotate the unwrapping wire, rotatory unwrapping wire drives the range that the switch door was opened and just beats, unloading speed is directly proportional with the water yield, add at the water yield and finish finishing and intercept the time, under the effect of pulling spring, make the switch door carry out timely closing, simple structure convenient and fast, the dyeing agent has been guaranteed simultaneously and has fully combined with water, make stirring dyeing agent more even.

The warning device comprises a warning groove, a first warning lug arranged in the warning groove, a warning wave block arranged on the warning lug, a first warning spring arranged on the warning lug, a second warning lug arranged on the warning wave block, warning fixed blocks sleeved on the upper side and the lower side outside the second warning lug, a plurality of second warning springs arranged between the warning fixed blocks, a plurality of impact balls arranged on the second warning lug, elastic ropes arranged on the impact balls and a pre-storing device arranged below the first warning lug; switch door and first warning piece collide mutually, and first warning piece removes about going on in warning inslot, warns wave piece and second warning piece and collides mutually, and the second warning piece reciprocates in warning fixed block, collides each other between a plurality of impact balls.

When the switch door is closed and moves downwards, the switch door is in contact with the first warning bump, the first warning bump moves rightwards to drive the warning wave block to move rightwards, the warning wave block is in contact with the second warning bump, the second warning bump moves upwards in a shaking mode, the second warning bump moves upwards to collide with the impact ball to shake, and the impact ball makes a sound; when moving backward through first warning lug, drive warning wave lug and remove right, warning wave lug removes and contacts with second warning lug, make the second warning lug carry out the rise of vibrations, make the effect of clash ball striking more, under the effect of warning spring, the effect of second warning lug shake has been aggravated, the sound frequency that makes the impact ball send is higher, remind the staff in time to carry out timely feed supplement to the charging box, do not influence whole working process

The pre-storage device comprises a pre-storage chamber, a pre-storage switch door arranged in the pre-storage chamber, a pre-storage wave block arranged on the pre-storage switch door, a shaking chamber arranged on one side of the pre-storage wave block, a shaking plate arranged in the shaking chamber, a plurality of shaking springs arranged below the shaking plate, a shaking wave block arranged on the shaking plate, a sweeping device arranged on the pre-storage switch door, a pre-storage spring arranged on the pre-storage switch door, a pre-storage lever arranged behind the pre-storage switch door and a moving device arranged on the pre-storage lever; the pre-storing switch door moves up and down in the pre-storing chamber, the shaking plate moves up and down in the shaking chamber, the pre-storing chamber is collided, and the pre-storing wave block is collided with the shaking wave block.

The dyeing agent falls down from the discharge pipe and is prestored in the prestoring chamber, one end of the lever tilts upwards, the other end moves downwards, the upward tilted end drives the switch door to move upwards, the switch door drives the prestoring wave block to move upwards, the switch door moves upwards, the prestoring spring is compressed, and when the switch door moves downwards, the prestoring wave lug is driven to move downwards and collides with the shaking wave block, so that the shaking wave block shakes, and the shaking wave block drives the shaking plate to move upwards and downwards; when the pre-storage wave block moves upwards, the shaking wave block is driven to move, the shaking plate moves up and down simultaneously, the coloring agent in the pre-storage cavity can be irregularly shaken, the coloring agent is effectively prevented from being attached to the pre-storage cavity, the effect of shaking the shaking plate to shake back and forth is aggravated under the action of the shaking spring when the shaking plate moves, the shaking vibration of the pre-storage cavity is aggravated, when the coloring agent is transferred into the pre-storage cavity from the storage tank, the coloring agent can be taken by the coloring agent, the coloring agent and a large part of the coloring agent are in the charging box, a small part of the coloring agent and the large part of the coloring agent are in the pre-storage cavity, the coloring agent in the pre-storage cavity and the phase separation in the charging box are ensured, the coloring agent in the charging box is ensured to be cleaner, how much is taken by the, the quality of the coloring agent is guaranteed, and meanwhile, the coloring agent powder is scattered, so that the coloring agent is stirred more uniformly in the stirring process.

The sweeping device comprises a sweeping cavity, a sweeping rack arranged in the sweeping cavity, a sweeping gear arranged on one side of the sweeping rack, a sweeping winding roller arranged on the sweeping gear, a sweeping winding rope arranged on the sweeping winding roller, a sweeping rod arranged on the sweeping winding rope, a brush arranged on the sweeping rod and an air outlet device arranged on one side of the sweeping rod; the sweeping rack moves up and down in the sweeping cavity, the sweeping rack is meshed with the sweeping gear, and the sweeping rod is movably connected with the sweeping cavity.

When the door is opened and closed to move upwards, the sweeping rack is driven to move upwards, the sweeping rack is moved and meshed with the sweeping gear to drive the sweeping gear to rotate, the sweeping gear is selectively installed to drive the sweeping winding roller to rotate, the sweeping winding rope rotates, the winding rope winds to drive one end of the sweeping rod to be pulled rightwards, the other end of the sweeping rod to move leftwards, the other end of the sweeping rod drives the hairbrush to move leftwards, when one end of the sweeping rod moves leftwards, the other end of the sweeping rod moves rightwards, the other end of the sweeping rod drives the hairbrush to move rightwards, and at the moment, the coloring agent flows out of a door opening of the door; through sweeping rack and sweep gear mesh mutually for remove with winding process more accurate, sweep the floor the winding rope simultaneously and drive and sweep the pole and carry out the swing back and forth, sweep the floor the pole and carry out the swing that makes a round trip and drive the brush and carry out the swing back and forth, sweep the dyeing agent simultaneously and put forward switch door department for the dyeing agent drops, and what the stirring is more urgent even.

The air outlet device comprises an air outlet cavity, an air outlet piston arranged at one end in the air outlet cavity, an air outlet rod arranged on the air outlet piston, an air outlet spring sleeved outside the air outlet rod and an air outlet arranged at the other end of the air outlet cavity; the air outlet piston moves left and right in the air outlet chamber.

When one end of the floor sweeping rod moves leftwards or rightwards, the air outlet rod is driven to move rightwards at the same time, the air outlet rod drives the air outlet piston to move rightwards, the air outlet port sucks air, the air outlet cavity is in an air exhaust state, the air outlet rod moves leftwards, the air outlet rod drives the air outlet piston to move leftwards, the air outlet port exhausts air, and the air outlet cavity is in an air exhaust state; remove through sweeping the indirect drive of ground pole and going out the gas pole and remove, at this moment go out the gas in the cavity and be in the state of bleeding and giving vent to anger, give vent to anger to the coloring agent in the cavity of prestoring, guaranteed the drying of coloring agent, reduce the mutual caking phenomenon between the coloring agent, played the phenomenon of blowing away, also guaranteed the aridity in the cavity of prestoring simultaneously for the coloring agent is more abundant when the stirring, and the stirring is more even.

The moving device comprises a moving nut, a first moving screw penetrating through the moving nut, a motor arranged on the first moving screw, a rotating shaft arranged below the first screw, a rotating scraping blade sleeved outside the rotating shaft, a fixed disc arranged below the rotating shaft, an air injection channel arranged below the fixed disc, a second moving screw arranged in an air injection groove, an air injection device arranged on the second moving screw, a rotating device arranged below the second moving screw, fixed springs arranged on the left side and the right side below the fixed disc, a fixed sliding block arranged below the fixed springs, a plurality of stirring blades arranged on the rotating shaft, a plurality of support frames arranged on the circumferential direction of the rotating shaft, a plurality of scraping plates arranged on the support frames and through holes arranged on the scraping plates; the movable nut moves up and down on the first movable screw, the scraper can be in contact with the inner wall of the dyeing box, and the fixed sliding block moves up and down in the air outlet channel.

The motor is started, the motor drives the first moving screw to rotate, the first moving screw rotates to drive the moving nut to move downwards, the first moving screw drives the rotating shaft to rotate, the rotating shaft rotates to drive the stirring blade to rotate and also drive the supporting rod to rotate, the supporting rod drives the scraper blade to rotate, the rotating shaft rotates to drive the second moving screw to rotate, the rotating shaft rotates to drive the rotating scraper blade to rotate, and the rotating scraper blade scrapes off the pasty coloring agent on the fixed disc; drive through the motor, make more stable of rotational speed, it reciprocates to rotate the drive removal screw rod when first removal screw rod, it reciprocates to move the screw rod simultaneously to drive the lever, the lever reciprocates and drives the switch door that prestores and reciprocates, realize the input to a small amount of many times of dyeing agent, realize the effect more even of stirring, the scraper blade strikes off dyeing incasement wall simultaneously, prevent that the dyeing agent from being stained with and attaching on dyeing incasement wall, the setting of through-hole can be to the effect of scraper blade start-up buffering, the life of scraper blade has been prolonged, the optional scraper blade of adorning can scrape the outside of falling fixed disc to the pasty dyeing agent of sinking on fixed disc, be convenient for handle pasty dyeing agent in unison, more convenient and fast, simple structure easily operates, stirring effect is more even.

The air injection device comprises an air injection nut, a fixed seat sleeved outside the air injection nut, first air injection channels arranged on the left side and the right side in the fixed seat, a first one-way valve arranged in the first air injection channel, a second air injection channel arranged on the first air injection channel, a second one-way valve arranged in the second air injection channel, an air injection piston arranged in the first air injection channel, an air injection rod arranged on the air injection piston, a first air injection spring sleeved outside the air injection rod, a first air injection slide block arranged on the first air injection spring, an air injection groove arranged in the air injection nut, openings arranged on the upper side and the lower side of the air injection groove, a second air injection slide block arranged in the air injection groove, a groove arranged on the air injection slide block and a second air injection spring arranged on the second air injection slide block; the air injection nut moves up and down on the second moving rotating shaft, the fixed sliding block is abutted against the groove, the first air injection sliding block is abutted against the second air injection sliding block, the air injection piston moves left and right in the first air injection channel, and the fixed sliding block moves up and down in the air injection channel.

When the second movable screw rod rotates, the air injection nut is driven to move downwards, the air injection nut moves downwards, the air injection nut drives the second air injection slide block to move downwards, the second air injection slide block moves downwards to be in contact with the first air injection slide block, the first air injection slide block moves outwards, the air injection slide block drives the air injection rod to move outwards, the air injection rod drives the air injection piston to move outwards, the first air injection channel injects air outwards, when the first air injection slide block is not in contact with the second air injection slide block, the first air injection slide block is in the first air injection spring to be quickly reset, when the second air injection channel exhausts air, when the air injection nut moves upwards, when the fixed slide block is in contact with the notch, the second air injection slide block moves inwards; drive the jet-propelled slider of second through jet-propelled nut and reciprocate, intermittent type collides with first jet-propelled slider mutually and touches, make first jet-propelled slider remove, pull back round trip is carried out to the gas in first jet-propelled pipeline and the jet-propelled pipeline of second, when spouting in first jet-propelled pipeline, the stirring of giving vent to anger to the coloring agent that is in dyeing incasement bottom, make more even of coloring agent stirring, when the jet-propelled slider of second moves upwards, the fluting contacts with fixed slider, make the jet-propelled slider of second carry out the inward movement, make the jet-propelled slider of second pass through smoothly in jet-propelled passageway, make the jet-propelled slider of second remove more smoothly.

The rotating device comprises a rotary chamber, a rotary rotating shaft arranged in the rotary chamber, a large gear sleeved outside the rotary rotating shaft, a plurality of small gears arranged outside the large gear, a rotary small rotating shaft arranged on the small gears and a rotary cutting blade arranged on the rotary small rotating shaft; the bull gear is engaged with a plurality of pinion gears.

The rotating shaft rotates to drive the big gear to rotate, the big gear rotates to be respectively meshed with the plurality of small gears to drive the small gears to rotate, the small gears rotate to drive the small rotating shaft to rotate, and the small rotating shaft rotates to drive the rotary cutting blade to rotate; through gear wheel and pinion meshing for rotational speed stability more, rotate when the pinion and drive the rotary cutting piece and rotate, make to paste-like coloring agent rotate the cutting, more even when making the stirring, stirring effect more abundant.

In conclusion, the invention has the following advantages: the amount of the coloring agent is controlled through the water inflow, the amount of the coloring agent which is taken is used when the coloring agent which is discharged is placed into the pre-storage chamber, so that the coloring agent is not uniformly dyed due to the fact that the coloring agent is wetted and caked, when the coloring agent is pasty in the stirring process, the rotating cutting piece can cut and smash the pasty coloring agent, and the smashed pasty coloring agent is subjected to air injection stirring through the first air injection pipeline, so that the coloring agent in the stirring box is stirred more uniformly.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a left side view of the present invention.

Fig. 3 is a first cross-sectional perspective view taken along a-a in fig. 2.

Fig. 4 is an enlarged view of a structure shown in fig. 3.

Fig. 5 is an enlarged view of the structure at B in fig. 3.

FIG. 6 is an enlarged view of the structure at C in FIG. 4

Fig. 7 is an enlarged view of the structure at D in fig. 4.

Fig. 8 is an enlarged view of the structure at E in fig. 5.

Fig. 9 is a second sectional perspective view taken along a-a in fig. 2.

Fig. 10 is an enlarged view of the structure at F in fig. 9.

Fig. 11 is an enlarged view of the structure at G in fig. 9.

Fig. 12 is an enlarged view of the structure at H in fig. 10.

Detailed Description

As shown in fig. 1-12, a blending processing and stirring device comprises a dyeing box 1, a water inlet pipeline 2, a water outlet hole 3 and a water inlet device 4; the water inlet pipeline 2 is arranged on the dyeing box 1; the water outlet hole 3 is formed below the water inlet pipeline 2; the water inlet device 4 is arranged on the water inlet pipeline 2;

the water inlet device 4 comprises a water inlet bump 40, a water inlet rod 41, a water inlet spring 42, a water inlet fixing block 43, a tooth block 44, a pulling cavity 45 and a pulling device 5; the water inlet bump 40 is arranged in the water inlet pipeline 2 and can move left and right; the water inlet rod 41 is arranged on the water inlet convex block 40 and is fixedly connected with the water inlet convex block; the water inlet spring 42 is sleeved outside the water inlet rod 41, and one end of the water inlet spring is fixedly connected with the water inlet convex block 40; the water inlet fixing block 43 is sleeved outside the water inlet rod 41, is fixedly connected with the inside of the water inlet pipeline 2, and is fixedly connected with the other end of the water inlet spring 42; the tooth block 44 is arranged on the upper right part of the water inlet rod 41 and is fixedly connected with the upper right part of the water inlet rod; the pulling chamber 45 is arranged on the tooth block 44; the pulling device 5 is arranged in the pulling chamber 45;

the pulling device 5 comprises a pulling gear 50, a winding roller 51, a winding rope 52, a switch door 53, a feeding box 54, a pulling spring 55, a discharging pipe 56 and a warning device 6; the pulling gear 50 is embedded in the pulling chamber 45 and can rotate; the winding roller 51 is arranged on the pulling gear 50 and fixedly connected with the pulling gear; one end of the wire winding rope 52 is arranged on the wire winding roller 51 and fixedly connected with the wire winding roller; the switch door 53 is arranged at the other end of the winding rope 52 and is fixedly connected with the other end of the winding rope; the feeding box 54 is sleeved outside the switch door 53, the left end of the switch door 53 is hinged to the bottom of the feeding box 54, the switch door 53 can be turned over at the bottom of the feeding box 54, and the feeding box 54 is made of iron materials; one end of the pulling spring 55 is arranged on the switch door 53 and fixedly connected, and the other end is arranged in the feeding box 54 and fixedly connected; the discharge pipe 56 is arranged at the lower part of the switch door 55; the warning device 6 is arranged on one side of the switch door 55.

The warning device 6 comprises a warning groove 60, a first warning bump 61, a warning wave block 62, a first warning spring 63, a second warning bump 64, a warning fixing block 65, a second warning spring 66, a striking ball 67, an elastic rope 68 and a prestoring device 7; the warning groove 60 is arranged on one side of the switch door 55; the first warning bump 61 is arranged in the warning groove 60 and moves left and right in the warning groove 60; the warning wave block 62 is arranged on the first warning convex block 61 and is fixedly connected with the first warning convex block; one end of the first warning spring 63 is arranged in the first warning bump 61 and fixedly connected with the first warning bump, and the other end of the first warning spring is arranged in the warning groove 60 and fixedly connected with the first warning bump; the second warning bump 64 is arranged on the warning wave block 62 and collides with the warning wave block 62; the number of the warning fixing blocks 65 is 2, the warning fixing blocks are respectively sleeved on the upper side and the lower side outside the second warning bumps 64 and are fixedly connected with the feeding box 54, and the second warning bumps 64 move up and down in the warning fixing blocks 65; the number of the second warning springs 66 is 2, and the second warning springs are respectively arranged on the left side and the right side of the 2 warning fixing blocks 65 and are fixedly connected with each other; the number of the striking balls 67 is 2, the striking balls 67 are respectively and uniformly arranged on the second warning bump 64 at intervals, the striking balls 67 are made of iron materials, and a plurality of striking balls collide with one another; the elastic rope 68 is used for connecting the impact ball 67 and fixedly connecting the charging box 54; the pre-storage device 7 is disposed under the first warning bump 61.

The pre-storing device 7 comprises a pre-storing chamber 70, a pre-storing switch door 71, a pre-storing wave block 72, a shaking chamber 73, a shaking plate 74, a shaking spring 75, a shaking wave block 76, a sweeping device 8, a pre-storing spring 77, a pre-storing lever 78 and a moving device 10; the pre-storage chamber 70 is arranged on the first warning bump 61; the pre-stored switch door 71 is arranged on the right side in the pre-stored chamber 70, and the pre-stored switch door 71 moves up and down in the pre-stored chamber 70; the pre-storing wave block 72 is arranged on the pre-storing switch door 71 and is fixedly connected with the pre-storing switch door; the shaking chamber 73 is arranged on one side of the pre-stored wave block 72; the shaking plate 74 is arranged in the shaking chamber 73 and moves up and down in the shaking chamber; the shaking springs 75 are provided with a plurality of numbers, one ends which are uniformly spaced are arranged in the shaking chamber 73 and fixedly connected, and the other ends are arranged at the lower part of the shaking plate 74 and fixedly connected; the shaking wave block 76 is arranged on the shaking plate 74 and is fixedly connected with the shaking plate, and the pre-stored wave block collides with the shaking wave block; the sweeping device 8 is arranged on a pre-stored switch door 71; the pre-storing spring 77 is fixedly connected with the pre-storing switch door 71; one end of the pre-storing lever 78 is fixedly connected with the pre-storing switch door 71, and two ends of the pre-storing lever 78 are in opposite motion states; the moving means 10 is provided at the other end of the pre-stored lever 78.

The sweeping device 8 comprises a sweeping chamber 80, a sweeping rack 81, a sweeping gear 82, a sweeping winding roller 83, a sweeping winding rope 84, a sweeping rod 85, a brush 86 and an air outlet device 9; the sweeping cavity 80 is arranged at the upper part of the pre-stored switch door 71; the sweeping rack 81 is fixedly connected with the pre-stored switch door 71, and the sweeping rack 81 moves up and down in the sweeping chamber 80; the sweeping gear 82 is arranged on one side of the sweeping rack 81 and is embedded in the sweeping chamber 80 to rotate relatively, and the sweeping rack 81 is meshed with the sweeping gear 82; the sweeping winding roller 83 is arranged on the sweeping gear 82 and fixedly connected with the sweeping gear; one end of the sweeping winding rope 84 is arranged on the sweeping winding roller 83 and fixedly connected with the sweeping winding roller; the sweeping rod 85 is arranged at the other end of the sweeping winding rope 84 and is fixedly connected, the middle part of the sweeping rod 85 is hinged with the sweeping chamber 80 and swings left and right in the sweeping chamber 80; the brush 86 is fixedly connected to the sweep bar 85 and contacts with the bottom of the pre-storage chamber 70; the air outlet device 9 is arranged on one side of the sweep rod 85.

The air outlet device 9 comprises an air outlet chamber 90, an air outlet piston 91, an air outlet rod 92, an air outlet spring 93 and an air outlet 94; the air outlet chamber 90 is arranged on one side of the sweep rod 85; the air outlet piston 91 is arranged at one end in the air outlet cavity 90, and the air outlet piston 91 moves left and right in the air outlet cavity 90; one end of the air outlet rod 92 is arranged on the air outlet piston 91 and fixedly connected, and the other end penetrates out of the air outlet chamber 90 and is fixedly connected with the upper part of the sweep rod 85; the air outlet spring 93 is sleeved outside the air outlet rod 92, one end of the air outlet spring is fixedly connected with the air outlet cavity 90, and the other end of the air outlet spring is fixedly connected with the sweep rod 85; the air outlet 94 opens at the other end of the air outlet chamber 90.

The moving device 10 comprises a moving nut 11, a first moving screw 12, a motor 13, a rotating shaft 131, a rotating scraper 132, a fixed disc 14, an air injection channel 15, a second moving screw 16, an air injection device 17, a rotating device 20, a fixed spring 18, a fixed slider 19, a stirring blade 190, a support frame 191, a scraper 192 and a through hole 193; the movable nut 11 is arranged at the other end of the prestoring lever 78 and is fixedly connected with the other end of the prestoring lever 78, the movable nut 11 drives one end of the prestoring lever 78 to move downwards, and the other end of the prestoring lever 78 moves upwards; the first movable screw 12 penetrates through the movable nut 11, and the movable nut 11 moves up and down on the first movable screw 12; the motor 13 is arranged on the upper part of the first movable screw 12 and is fixedly connected with the first movable screw; the rotating shaft 131 is arranged at the lower part of the first movable screw 12 and is fixedly connected with the lower part of the first movable screw; the fixed disc 14 is sleeved outside the rotating shaft 131; the rotating blade 132 is sleeved at the bottom outside the rotating shaft 131; the air injection channel 15 is arranged below the fixed disc 14, and the rotary scraping blade 132 rotates on the fixed disc 14; the second movable screw 16 is arranged in the air injection groove 15 and is fixedly connected with the bottom of the rotating shaft 131; the air injection device 17 is arranged on the second movable screw 16; the rotating device 20 is arranged below the second moving screw 16; the number of the fixed springs 18 is 2, and one ends of the fixed springs are respectively arranged at the left side and the right side of the lower part of the fixed disc 14; the fixed sliding block 19 is arranged at the other end of the fixed spring 18 and is fixedly connected with the other end of the fixed spring, and the fixed sliding block 18 moves up and down in the air injection channel 15; the stirring blades 190 are uniformly arranged at intervals and are fixedly connected with the rotating shaft 13 in the circumferential direction; the number of the support frames 191 is 3, and the support frames are uniformly arranged at intervals and are fixedly connected with the rotating shaft 13 in the circumferential direction; the number of the scrapers 192 is multiple, the scrapers can be increased or decreased according to specific conditions, and the scrapers are uniformly arranged on the support frame 191 at intervals and are fixedly connected; the through hole 193 opens on the squeegee 192.

The air injection device 17 comprises an air injection nut 170, a fixed seat 171, a first air injection channel 172, a second air injection channel 173, an air injection piston 174, an air injection rod 175, a first air injection spring 176, a first air injection slide block 177, an air injection groove 178, an opening 179, a second air injection slide block 1790, a notch 1791 and a second air injection spring 1792; the air nut 170 is sleeved outside the second moving rotating shaft 16 and moves up and down on the second moving rotating shaft 16; the fixed seat 171 is sleeved outside the air injection nut 170 and is fixedly connected with the bottom in the dyeing box 1, and the bottom of the fixed disc 14 is fixedly connected with the fixed seat 171; the first air injection channel 172 is arranged on the left side and the right side in the fixed seat 171, and a first one-way valve is arranged in the first air injection channel 172 and only can be opened or closed; one end of the second air injection channel 173 is arranged on the first air injection channel 172, the other end of the second air injection channel passes through the outside of the dyeing box 1, and a second one-way valve is arranged inside the second air injection channel 173 and can only enter and not exit; the air injection piston 174 is arranged in the first air injection channel 172 and moves left and right in the first air injection channel; one end of the air injection rod 175 is arranged on the air injection piston 174 and fixedly connected, and the other end penetrates out of the first air injection channel 172; the first air injection spring 176 is sleeved outside the air injection rod 175, and one end of the first air injection spring is fixedly connected with the outside of the first air injection channel 172; the first air injection sliding block 177 is arranged outside the first air injection spring 176 and fixedly connected with the air injection rod 175; the air injection grooves 178 are formed in the left side and the right side of the air injection nut 170; the openings 179 are formed in the upper and lower sides of the air injection groove 178; the second air injection sliding block 1790 is arranged in the air injection groove 178, and the first air injection sliding block 177 is abutted to the second air injection sliding block 1790; the open groove 1791 is arranged on the air injection sliding block 1790; one end of the second air injection spring 1792 is fixedly connected to the second air injection sliding block 1790, and the other end is fixedly connected to the air injection groove 178.

The rotating device 20 comprises a rotating chamber 21, a rotating shaft 22, a large gear 23, a small gear 24, a rotating small shaft 25 and a rotating cutting blade 26; the rotating chamber 21 is arranged below the second moving screw 16; the rotating shaft 22 is arranged at the lower part of the second movable screw 16 and is fixedly connected with the lower part of the second movable screw; the bull gear 23 is sleeved outside the rotating shaft 22; the number of the small gears 24 is multiple, the small gears are uniformly distributed in the circumferential direction in the rotating chamber 21 at intervals, and the large gear 23 is meshed with the small gears 24 respectively; the rotary small rotating shaft 25 is arranged on the small gear 24 and is fixedly connected with the small gear; the rotary cutting blade 26 is sleeved outside the rotary small rotating shaft 25.

The specific working process is as follows: the water pipe is inserted into the water inlet pipe 2, the water inlet convex block 40 moves backwards under the pressure of water, the water inlet convex block 40 drives the water inlet rod 41 to move backwards, the water inlet spring 42 is compressed, the water inlet rod 41 moves to drive the tooth block 44 to move backwards, when the water inlet convex block 40 continues to move backwards, the water outlet hole 3 is leaked, water flows out of the water outlet hole and enters the dyeing box 1, the tooth block 44 moves backwards, is meshed with the pulling gear 50 to drive the pulling gear 50 to rotate, the pulling gear 50 rotates to drive the winding roller 51 to rotate, the winding roller 51 rotates to drive the winding rope 52 to pay off, the winding rope 52 drives the switch door 53 to move upwards, at the moment, the opening of the feeding box 54 is opened, and the dyeing agent flows out of the discharge pipe 56.

When the switch door 53 is closed and moves downwards, the switch door 53 is in contact with the first warning convex block 61, the first warning convex block 61 moves rightwards to drive the warning wave block 62 to move rightwards, the warning wave block 62 is in contact with the second warning convex block 64, the second warning convex block 64 moves upwards in a shaking way, the second warning convex block 64 moves upwards to collide with the striking ball 67 to shake, the striking ball makes a sound, the coloring agent falls down from the discharging pipe 56 and is prestored in the prestoring chamber 70, one end of the prestoring lever 78 tilts upwards, the other end moves downwards, the one end which tilts upwards drives the switch door 53 to move upwards, the switch door 53 drives the prestoring block 72 to move upwards, the switch door 53 moves upwards, the prestoring spring 77 is compressed, and when the switch door 53 moves downwards, the prestoring cam 72 is driven to move downwards, collides with the shaking wave block 76 to shake the shaking wave block 76, and the shaking wave block 76 moves the shaking plate 74 up and down.

Starting a motor 13, the motor 13 drives a first movable screw 12 to rotate, the first movable screw 12 rotates to drive a movable nut 11 to move downwards, the first movable screw 12 drives a rotating shaft 131 to rotate, the rotating shaft 131 rotates to drive a stirring blade 190 to rotate and also drives a support frame 191 to rotate, the support frame 191 drives a scraping plate 192 to rotate, the rotating shaft 131 rotates to drive a second movable screw 16 to rotate, the rotating shaft 131 rotates to drive a rotary scraping blade 132 to rotate, and the rotary scraping blade 132 scrapes off pasty coloring agents on a fixed disc 14.

The moving nut 11 moves downwards to drive one end of the prestoring 78 lever to move downwards, the other end moves upwards to drive the switch door 53 to move upwards, when the switch door 53 moves upwards, the sweep rack 81 is driven to move upward, the sweep rack 81 moves to be engaged with the sweep gear 82 to drive the sweep gear 82 to rotate, the sweep gear 82 rotates to drive the sweep winding roller 83 to rotate, the sweep winding rope 84 rotates, the sweep winding rope 84 winds to drive one end of the sweep rod 85 to be pulled rightward, the other end of the sweep rod 85 moves leftward, the other end of the sweep rod 85 drives the brush 86 to move leftward, when one end of the sweep lever 85 is moved leftward, the other end is moved rightward, the other end drives the brush 86 to move rightward, at this time, the coloring agent flows out from the door opening of the opening and closing door 53 and enters the coloring box 1, and the stirring blade 190 stirs the coloring agent in the coloring box.

When one end of the sweep rod 85 moves rightwards, the air outlet rod 92 is driven to move rightwards at the same time, the air outlet rod 92 drives the air outlet piston 91 to move rightwards, the air outlet 94 sucks air, the air outlet chamber 90 is in an air suction state, the air outlet rod 92 moves leftwards, the air outlet rod 92 drives the air outlet piston 91 to move leftwards, the air outlet 94 exhausts air, the air outlet chamber 90 is in an air outlet state, and the coloring agent in the pre-storage chamber 70 is blown.

When the second movable screw 16 rotates, the air injection nut 170 is driven to move downwards, the air injection nut 170 moves downwards, the air injection nut 170 drives the second air injection slide block 1790 to move downwards, the second air injection slide block 1790 moves downwards to touch the first air injection slide block 177, the first air injection slide block 177 moves outwards, the air injection slide block 177 drives the air injection rod 175 to move outwards, the air injection rod 175 drives the air injection piston 174 to move outwards, at this time, the first air injection channel 172 injects air outwards, when the first air injection slide block 177 is not in contact with the second air injection slide block 1790, the first air injection slide block 177 is in the first air injection spring 176 to reset quickly, at this time, the second air injection channel 1790 exhausts air, when the air injection nut 170 moves upwards, and when the fixed slide block 19 is in contact with the notch 1791, the second air injection slide block 1790 moves inwards.

The rotating shaft 22 rotates, the rotating shaft 22 drives the large gear 23 to rotate, the large gear 23 rotates to be meshed with the plurality of small gears 24 respectively, the small gears 24 are driven to rotate, the small gears 24 drive the small rotating shafts 25 to rotate, the small rotating shafts 25 drive the rotary cutting pieces 26 to rotate, pasty coloring agents are crushed, and the work is finished.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (9)

1. A blending processing and uniformly stirring device comprises a dyeing box (1), a water inlet pipeline (2) arranged on the dyeing box (1), a water outlet hole (3) arranged below the water inlet pipeline (2) and a water inlet device (4) arranged on the water inlet pipeline (2); the method is characterized in that: the water inlet device (4) comprises a water inlet convex block (40), a water inlet rod (41) arranged on the water inlet convex block (40), a water inlet spring (42) sleeved outside the water inlet rod (41), a water inlet fixing block (43) sleeved outside the water inlet rod (41), a tooth block (44) arranged on the water inlet rod (41), a pulling cavity (45) arranged on the tooth block (44) and a pulling device (5) arranged in the pulling cavity (45); the water inlet convex block can move left and right in the water inlet pipeline.

2. The blending processing stirring device of claim 1, wherein: the pulling device (5) comprises a pulling gear (50), a winding roller (51) arranged on the pulling gear (50), a winding rope (52) arranged on the winding roller (51), a switch door (53) arranged on the winding rope (52), a feeding box (54) arranged on the opening outer door (53), a pulling spring (55) arranged on the switch door (53), a discharge pipe (56) arranged below the switch door (55) and a warning device (6) arranged on one side of the switch door (55); one end of the switch door is movably connected with the interior of the feeding box, the switch door is turned up and down in the feeding box, one end of the pulling spring is fixedly connected with the switch door, the other end of the pulling spring is fixedly connected with the feeding box, and the tooth block is meshed with the pulling gear.

3. The blending processing stirring device of claim 2, wherein: the warning device (6) comprises a warning groove (60), a first warning bump (61) arranged in the warning groove (60), a warning wave block (62) arranged on the warning bump (61), a first warning spring (63) arranged on the first warning bump (61), a second warning bump (64) arranged on the warning wave block (62), warning fixing blocks (65) sleeved on the upper side and the lower side outside the second warning bump (64), a plurality of second warning springs (66) arranged between the warning fixing blocks (65), a plurality of impact balls (67) arranged on the second warning bump (64), elastic ropes (68) arranged on the impact balls (67) and a prestoring device (7) arranged below the first warning bump (61); switch door and first warning piece collide mutually, and first warning piece removes about going on in warning inslot, warns wave piece and second warning piece and collides mutually, and the second warning piece reciprocates in warning fixed block, collides each other between a plurality of impact balls.

4. The blending processing stirring device of claim 3, wherein: the pre-storing device (7) comprises a pre-storing chamber (70), a pre-storing switch door (71) arranged in the pre-storing chamber (70), a pre-storing wave block (72) arranged on the pre-storing switch door (71), a shaking chamber (73) arranged on one side of the pre-storing wave block (72), a shaking plate (74) arranged in the shaking chamber (73), a plurality of shaking springs (75) arranged under the shaking plate (74), a shaking wave block (76) arranged on the shaking plate (74), a sweeping device (8) arranged on the pre-storing switch door (71), a pre-storing spring (77) arranged on the pre-storing switch door (71), a pre-storing lever (78) arranged behind the pre-storing switch door (71) and a moving device (10) arranged at the other end of the pre-storing lever (78); the pre-storing switch door moves up and down in the pre-storing chamber, the shaking plate moves up and down in the shaking chamber, the pre-storing chamber is collided, and the pre-storing wave block is collided with the shaking wave block.

5. The blending processing stirring device of claim 4, wherein: the sweeping device (8) comprises a sweeping cavity (80), a sweeping rack (81) arranged in the sweeping cavity (80), a sweeping gear (82) arranged on one side of the sweeping rack (81), a sweeping winding roller (83) arranged on the sweeping gear (82), a sweeping winding rope (84) arranged on the sweeping winding roller (83), a sweeping rod (85) arranged on the sweeping winding rope (84), a brush (86) arranged on the sweeping rod (85) and an air outlet device (9) arranged on one side of the sweeping rod (85); the sweeping rack moves up and down in the sweeping cavity, the sweeping rack is meshed with the sweeping gear, and the sweeping rod is movably connected with the sweeping cavity.

6. The blending processing stirring device of claim 5, wherein: the air outlet device (9) comprises an air outlet chamber (90), an air outlet piston (91) arranged at one end in the air outlet chamber (90), an air outlet rod (92) arranged on the air outlet piston (91), an air outlet spring (93) sleeved outside the air outlet rod (92) and an air outlet (94) arranged at the other end of the air outlet chamber (90); the air outlet piston moves left and right in the air outlet chamber.

7. The blending processing stirring device of claim 4, wherein: the moving device (10) comprises a moving nut (11), a first moving screw (12) penetrating through the moving nut (11), a motor (13) arranged on the first moving screw (12), a rotating shaft (131) arranged below the first moving screw (12), a rotating scraping blade (132) sleeved outside the rotating shaft (131), a fixed disc (14) arranged below the rotating shaft (131), an air injection channel (15) arranged below the fixed disc (14), a second moving screw (16) arranged in an air injection groove (15), an air injection device (17) arranged on the second moving screw (16), a rotating device (20) arranged below the second moving screw (16), fixed springs (18) arranged on the left side and the right side below the fixed disc (14), a fixed sliding block (19) arranged below the fixed springs (18), a plurality of stirring blades (190) arranged on the rotating shaft (13), and a plurality of supporting frames (191) arranged on the circumferential direction of the rotating shaft (13), A plurality of scrapers (192) arranged on the support frame (191) and through holes (193) arranged on the scrapers (192); the movable nut moves up and down on the first movable screw, the scraper can be in contact with the inner wall of the dyeing box, and the fixed sliding block moves up and down in the air outlet channel.

8. The blending processing stirring device of claim 7, wherein: the air injection device (17) comprises an air injection nut (170), a fixed seat (171) sleeved outside the air injection nut (170), first air injection channels (172) arranged on the left side and the right side in the fixed seat (171), first one-way valves arranged in the first air injection channels (172), second air injection channels (173) arranged on the first air injection channels (172), second one-way valves arranged in the second air injection channels (173), air injection pistons (174) arranged in the first air injection channels (172), air injection rods (175) arranged on the air injection pistons (174), first air injection springs (176) sleeved outside the air injection rods (175), first air injection slide blocks (177) arranged on the first air injection springs (176), air injection grooves (178) arranged in the air injection nut (170), openings (179) arranged on the upper side and the lower side of the air injection grooves (178), and second air injection slide blocks (1790) arranged in the air injection grooves (178), A slot (1791) arranged on the air injection slide block (1790) and a second air injection spring (1792) arranged on the second air injection slide block (1790); the air injection nut moves up and down on the second moving rotating shaft, the fixed sliding block is abutted against the opening, the first air injection sliding block is abutted against the second air injection sliding block, the air injection piston moves left and right in the first air injection channel, and the fixed sliding block moves up and down in the air injection pipeline.

9. The blending processing stirring device of claim 7, wherein: the rotating device (20) comprises a rotating chamber (21), a rotating shaft (22) arranged in the rotating chamber (21), a large gear (23) sleeved outside the rotating shaft (22), a plurality of small gears (24) arranged outside the large gear (23), a rotating small rotating shaft (25) arranged on the small gears (24) and a rotating cutting blade (26) arranged on the rotating small rotating shaft (25); the bull gear is engaged with a plurality of pinion gears.

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