CN218065516U - Quick cooling device is used in water-based ink production - Google Patents

Abstract

The utility model discloses a rapid cooling device for water-based ink production, which relates to the technical field of rapid cooling devices for water-based ink production and comprises a cooling tower and a cooling unit; the lower end of the cooling tower is uniformly provided with three supporting legs along the circumferential direction, the middle part of the lower end of the cooling tower is provided with a discharge hole, and the middle part of the upper end in the cooling tower is provided with a stirring unit along the up-down direction; the cooling unit includes feed inlet, helical blade and spiral sand grip, a feed inlet has been seted up respectively to the upper end left and right sides of cooling tower, forms two helical coiled passage's effect between two helical coiled sand grips pass through the inboard of two helical blade and cooling tower under, makes the inside printing ink that enters into the cooling tower fall into two helical coiled passage's inside, has both played the sliding distance who increases printing ink through two helical coiled passage and has made its fully refrigerated effect, the effectual cooling capacity of single to printing ink that has increased again.

Description

Quick cooling device is used in water-based ink production

Technical Field

The utility model relates to a quick cooling device technical field is used in the production of water-based ink specifically is a quick cooling device is used in production of water-based ink.

Background

The printing ink is an important material for printing, patterns and characters are expressed on a printing stock by printing or spray painting, the printing ink is composed of a binder, a pigment, a filler, an auxiliary agent, a solvent and the like, is used for various printings such as books, periodicals, packaging decorations, building decorations, electronic circuit boards and the like, and along with the increase of social demands, the variety and the yield of the printing ink are correspondingly expanded and increased;

the quick cooling device for the water-based ink production, which is provided with the application publication number of CN214841974U in the prior art, comprises a cooling tank, wherein two ends of the bottom surface of the cooling tank are respectively and fixedly connected with the top end of a vertically-installed supporting rod, the bottom end of the supporting rod is respectively and fixedly connected with two ends of the top surface of a base, a discharge hole is formed in the bottom of the cooling tank, a support is fixed to the top of the cooling tank in a welding mode, a vertical rotating shaft is rotatably installed on the support, a stirring blade is fixedly installed at the bottom, located in the cooling tank, of the bottom end of the rotating shaft through a bolt, and a second cooling fan is fixedly installed above the support through a bolt;

although a good type of quick cooling device for water-based ink production in prior art has realized the quick cooling rate to printing ink through a plurality of cooling measures simultaneous workings, its cooling device single is limited to the cooling capacity of printing ink, influences work efficiency, for this reason, we propose a quick cooling device for water-based ink production.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, a quick cooling device is used in water-based ink production is provided, form under two helical groove's effect between two helical groove's the inboard of passing through two helical blade and cooling tower, make the inside printing ink that enters into the cooling tower fall into two helical groove's inside, the sliding distance that has both played the increase printing ink through two helical groove makes its fully refrigerated effect, the effectual cooling capacity that has increased the single to printing ink again, can effectively solve the problem in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: a quick cooling device for water-based ink production comprises a cooling tower and a cooling unit;

cooling the tower: the lower end of the cooling tower is uniformly provided with three supporting legs along the circumferential direction, the middle part of the lower end of the cooling tower is provided with a discharge hole, and the middle part of the upper end inside the cooling tower is provided with a stirring unit along the up-down direction;

a cooling unit: include feed inlet, helical blade and spiral sand grip, a feed inlet has been seted up respectively to the upper end left and right sides of cooling tower, the inboard of cooling tower is provided with double-deck helical blade along upper and lower direction, and the inboard of two-layer helical blade is provided with the spiral sand grip along upper and lower direction respectively, and two spiral sand grips form two helical coiled passage through between the inboard of two helical blade and cooling tower.

Realize the supporting role to the cooling tower under the effect of supporting leg, pour printing ink into the inside of cooling tower through the feed inlet, form under two helical coiled groove's the effect of two helical coiled passage between two helical coiled blade and the inboard of cooling tower at two spiral raised lines, make the inside printing ink that enters into the cooling tower fall into two helical coiled passage's inside, both play the sliding distance who increases printing ink through two helical coiled passage and make its fully cooled effect, the effectual cooling capacity to printing ink that has increased the single again, printing ink through helical coiled passage enters into the inside lower extreme of cooling tower, heat dispersion through stirring unit increase printing ink, make its more abundant realization refrigerated effect, printing ink after the cooling passes through the inside of discharge gate discharge cooling tower.

Further, the cooling unit still includes the feeder hopper, the feeder hopper is provided with two, and two feeder hoppers set up respectively in the upper end left and right sides of cooling tower, and communicate between the inboard lower extreme of two feeder hoppers and the inboard of two feed inlets.

The ink is better fed into the cooling tower through the feed inlet by the feed hopper.

Further, the stirring unit includes axis of rotation, ring and stirring vane, the inside upper end of cooling tower is rotated and is connected with the axis of rotation, the outside lower extreme of axis of rotation is provided with the ring, the outside of ring evenly is provided with three stirring vane along the circumferencial direction, and stirring vane is located helical blade's downside.

The rotation of the rotating shaft drives the ring to rotate, the rotation of the ring drives the stirring blades to rotate, and the rotation of the stirring blades increases the heat dissipation performance of the printing ink, so that the printing ink can be cooled more fully.

Furthermore, the stirring unit further comprises an arc-shaped fixing block and a motor, the motor is fixedly connected to the middle of the upper end of the cooling tower through the arc-shaped fixing block, the output shaft of the motor is fixedly connected with the upper end of the rotating shaft, and the input end of the motor is electrically connected with the output end of an external power supply through an external control switch.

The output shaft of the motor is driven to rotate under the action of the external power supply, and the rotation of the rotating shaft is driven through the rotation of the output shaft of the motor.

Furthermore, the cooling tower further comprises heat dissipation holes and a filter screen, the front side and the rear side of the upper end of the cooling tower are respectively provided with one heat dissipation hole, the lower ends of the inner sides of the two heat dissipation holes are respectively provided with one heat dissipation fan, and the upper ends of the inner sides of the two heat dissipation holes are respectively clamped with one filter screen.

The heat dissipation effect is realized through the heat dissipation holes through the heat dissipation fan, so that the hot air generated in the cooling tower is better, and the dust in the outside air is prevented from entering the cooling tower through the heat dissipation holes through the filter screen.

Further, still include discharging pipe and valve, the lower extreme middle part of cooling tower is provided with the discharging pipe, communicate between the inboard upper end of discharging pipe and the inboard of discharge gate, the outside middle part of discharging pipe is provided with the valve.

The printing ink discharged from the discharge port enters the discharge pipe, enters the external collecting box through the discharge pipe, and controls the flow inside the discharge pipe through the valve.

Compared with the prior art, the beneficial effects of the utility model are that: this quick cooling device is used in water-based ink production has following benefit:

1. the quick cooling device for producing the water-based ink is provided with the heat dissipation holes and the filter screen, hot air generated in the cooling tower can better realize the heat dissipation effect through the heat dissipation holes by the heat dissipation fan, and dust in the outside air is prevented from entering the cooling tower through the heat dissipation holes by the filter screen;

2. the rapid cooling device for the water-based ink production is provided with the stirring unit, the rotation of the rotating shaft drives the circular ring to rotate, the rotation of the circular ring drives the stirring blades to rotate, and the rotation of the stirring blades increases the heat dissipation performance of the ink, so that the ink can be cooled more fully;

3. under the effect that two spiral channels are formed between the inboard of two helical ribbings through two helical blade and cooling tower, make the inside printing ink that enters into the cooling tower fall into two spiral channel's inside, both played the sliding distance that increases printing ink through two spiral channel and made its fully cooled effect, effectually increased the cooling capacity of single to printing ink again.

Drawings

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

fig. 2 is a schematic view of the structure of the present invention.

In the figure: 1 cooling tower, 2 supporting legs, 3 discharge gates, 4 stirring units, 41 rotating shafts, 42 rings, 43 stirring blades, 44 arc-shaped fixing blocks, 45 motors, 5 cooling units, 51 feed inlets, 52 spiral blades, 53 spiral raised lines, 54 feed hoppers, 6 heat dissipation holes, 7 filter screens, 8 discharge pipes and 9 valves.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, the present embodiment provides a technical solution: a rapid cooling device for water-based ink production comprises a cooling tower 1 and a cooling unit 5;

cooling tower 1: the lower end of the cooling tower is uniformly provided with three supporting legs 2 along the circumferential direction, the middle part of the lower end of the cooling tower 1 is provided with a discharge port 3, and the middle part of the upper end inside the cooling tower 1 is provided with a stirring unit 4 along the up-down direction;

stirring unit 4 includes axis of rotation 41, ring 42 and stirring vane 43, and the inside upper end of cooling tower 1 is rotated and is connected with axis of rotation 41, and the outside lower extreme of axis of rotation 41 is provided with ring 42, and the outside of ring 42 evenly is provided with three stirring vane 43 along the circumferencial direction, and stirring vane 43 is located helical blade 52's downside.

The rotation of the rotating shaft 41 drives the ring 42 to rotate, the rotation of the ring 42 drives the stirring blades 43 to rotate, and the rotation of the stirring blades 43 increases the heat dissipation performance of the ink, so that the ink can be cooled more fully.

Stirring unit 4 still includes arc fixed block 44 and motor 45, and motor 45 passes through arc fixed block 44 fixed connection at the upper end middle part of cooling tower 1, and fixed connection between the output shaft of motor 45 and the upper end of axis of rotation 41, the input of motor 45 is connected through being connected between external control switch and the output of external power source.

The output shaft of the motor 45 is driven to rotate by the external power supply, and the rotation of the output shaft of the motor 45 drives the rotation shaft 41 to rotate.

Cooling unit 5: include feed inlet 51, helical blade 52 and spiral sand grip 53, a feed inlet 51 has been seted up respectively to the upper end left and right sides of cooling tower 1, and the inboard of cooling tower 1 is provided with double-deck helical blade 52 along upper and lower direction, and the inboard of two-deck helical blade 52 is provided with spiral sand grip 53 along upper and lower direction respectively, and two spiral sand grip 53 form two helical coiled passage through between the inboard of two helical blade 52 and cooling tower 1.

Realize the supporting role to cooling tower 1 under the effect of supporting leg 2, pour printing ink into the inside of cooling tower 1 through feed inlet 51, form under two helical coiled passage's effect between two helical blade 52 and the inboard of cooling tower 1 at two spiral sand grip 53, make the printing ink that enters into inside of cooling tower 1 fall into the inside of two helical coiled passage, both play the effect that increases the sliding distance of printing ink and make its fully cooling through two helical coiled passage, the effectual cooling capacity to printing ink that has increased the single again, printing ink through helical coiled passage enters into the inside lower extreme of cooling tower 1, heat dispersion through stirring unit 4 increase printing ink, make its more abundant realization refrigerated effect, printing ink after the cooling passes through the inside of discharge gate 3 discharge cooling tower 1.

The cooling unit 5 further comprises two feeding hoppers 54, the two feeding hoppers 54 are respectively arranged at the left and right sides of the upper end of the cooling tower 1, and the lower ends of the inner sides of the two feeding hoppers 54 are communicated with the inner sides of the two feeding holes 51.

The ink is better introduced into the interior of the cooling tower 1 through the feed opening 51 by means of the feed hopper 54.

Still include louvre 6 and filter screen 7, a louvre 6 has been seted up respectively to both sides around the upper end of cooling tower 1, and the inboard lower extreme of two louvres 6 is provided with a radiator fan respectively, and the inboard upper end of two louvres 6 is the joint respectively has a filter screen 7.

The heat generated in the cooling tower 1 is better dissipated through the heat dissipating holes 6 by the heat dissipating fan, and the dust in the outside air is prevented from entering the cooling tower 1 through the heat dissipating holes 6 by the filter screen 7.

Still include discharging pipe 8 and valve 9, the lower extreme middle part of cooling tower 1 is provided with discharging pipe 8, communicates between the inboard upper end of discharging pipe 8 and the inboard of discharge gate 3, and the outside middle part of discharging pipe 8 is provided with valve 9.

The ink discharged from the discharge port 3 enters the discharge pipe 8, enters the external collection tank through the discharge pipe 8, and controls the flow rate inside the discharge pipe 8 through the valve 9.

The utility model provides a pair of quick cooling device is used in water-based ink production's theory of operation as follows:

the supporting effect on the cooling tower 1 is realized under the effect of the supporting legs 2, ink is poured into the cooling tower 1 through the feeding hole 51, the ink better enters the cooling tower 1 through the feeding hole 51 through the feeding hopper 54, under the effect that two spiral channels are formed between two spiral convex strips 53 and the inner side of the cooling tower 1 through two spiral blades 52, the ink entering the cooling tower 1 is enabled to fall into the two spiral channels, the sliding distance of the ink is increased through the two spiral channels, so that the ink is fully cooled, the cooling capacity of the ink is effectively increased for a single time, the ink entering the inner lower end of the cooling tower 1 through the spiral channels is enabled, the output shaft of the motor 45 is driven to rotate through the rotation of the output shaft of the heat dissipation hole 45, the rotation of the ring 42 is driven through the rotation of the rotating shaft 41, the rotation of the stirring blade 43 is driven through the rotation of the ring 42, the heat dissipation performance of the ink is increased through the rotation of the stirring blade 43, so that the cooling effect is more fully realized, the cooled ink is discharged out of the cooling tower 1 through the discharge hole 3, the discharge pipe 3 enters the discharging pipe 8 through the cooling tower, the air outlet 8, and the dust is prevented from entering the cooling tower 1 through the cooling tower 8, and the filter screen 6, and the heat dissipation valve is enabled to pass through the heat dissipation fan, and the heat generated inside.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a quick cooling device is used in water-based ink production which characterized in that: comprises a cooling tower (1) and a cooling unit (5);

cooling tower (1): the lower end of the cooling tower (1) is uniformly provided with three supporting legs (2) along the circumferential direction, the middle part of the lower end of the cooling tower (1) is provided with a discharge hole (3), and the middle part of the upper end in the cooling tower (1) is provided with a stirring unit (4) along the up-down direction;

cooling unit (5): include feed inlet (51), helical blade (52) and spiral sand grip (53), one feed inlet (51) has been seted up respectively to the upper end left and right sides of cooling tower (1), the inboard of cooling tower (1) is provided with double-deck helical blade (52) along upper and lower direction, and the inboard of two-layer helical blade (52) is provided with spiral sand grip (53) along upper and lower direction respectively, and two spiral sand grip (53) form two helical passage between the inboard through two helical blade (52) and cooling tower (1).

2. The rapid cooling device for producing the water-based ink as claimed in claim 1, wherein: cooling unit (5) still include feeder hopper (54), feeder hopper (54) are provided with two, and two feeder hoppers (54) set up respectively in the upper end left and right sides of cooling tower (1), and communicate between the inboard lower extreme of two feeder hoppers (54) and the inboard of two feed inlets (51).

3. The rapid cooling device for producing the water-based ink as claimed in claim 1, wherein: stirring unit (4) include axis of rotation (41), ring (42) and stirring vane (43), the inside upper end of cooling tower (1) is rotated and is connected with axis of rotation (41), the outside lower extreme of axis of rotation (41) is provided with ring (42), the outside of ring (42) evenly is provided with three stirring vane (43) along the circumferencial direction, and stirring vane (43) are located the downside of helical blade (52).

4. The rapid cooling device for producing the water-based ink as claimed in claim 3, wherein: stirring unit (4) still include arc fixed block (44) and motor (45), motor (45) are through arc fixed block (44) fixed connection at the upper end middle part of cooling tower (1), fixed connection between the output shaft of motor (45) and the upper end of axis of rotation (41), the input of motor (45) is connected through being connected between the output of external control switch and external power source.

5. The rapid cooling device for producing the water-based ink as claimed in claim 1, wherein: still include louvre (6) and filter screen (7), a louvre (6) has been seted up respectively to both sides around the upper end of cooling tower (1), and the inboard lower extreme of two louvres (6) is provided with a radiator fan respectively, and the inboard upper end of two louvres (6) is the joint respectively has a filter screen (7).

6. The rapid cooling device for producing the water-based ink as claimed in claim 1, wherein: still include discharging pipe (8) and valve (9), the lower extreme middle part of cooling tower (1) is provided with discharging pipe (8), communicate between the inboard upper end of discharging pipe (8) and the inboard of discharge gate (3), the outside middle part of discharging pipe (8) is provided with valve (9).

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