CN217541345U - Energy-conserving drying device is used in dispersant production - Google Patents

Abstract

The utility model discloses an energy-conserving drying device is used in dispersant production relates to dispersant stoving technical field, and for solving current dispersant and all be the stoving of form from top to bottom in production, the bottom is heated inequality easily, needs the longer time to dry, leads to the problem that energy loss is big. The upper end of supporting the base is provided with a first drying cylinder, one side of first drying cylinder is provided with a second drying cylinder, the one end of first drying cylinder and second drying cylinder all is provided with inverter motor mechanism, the inside of first drying cylinder and second drying cylinder all is provided with the axis of rotation, the outer wall of axis of rotation is provided with the upset leaf, the side surface of first drying cylinder and second drying cylinder all is provided with into hot hole, it is provided with a plurality of to advance hot hole, be provided with heating mechanism between first drying cylinder and the second drying cylinder, heating mechanism's lower extreme is provided with first heat cover that draws, one side of first heat cover is provided with second heat cover that draws.

Description

Energy-conserving drying device is used in dispersant production

Technical Field

The utility model relates to a dispersant stoving technical field specifically is an energy-conserving drying device is used in dispersant production.

Background

The dispersing agent is a surfactant with two opposite properties of lipophilicity and hydrophilcity in a molecule, can uniformly disperse solid and liquid particles of inorganic and organic pigments which are difficult to dissolve in liquid, can prevent the particles from settling and coagulating to form an amphiphilic agent required by a stable suspension, and needs to be dried during production so as to avoid affecting the production result.

However, most of the existing dispersing agents are dried from top to bottom in the production process, the bottom of the dispersing agents is easily heated unevenly, and long-time drying is needed, so that energy loss is large; therefore, the existing requirements are not met, and an energy-saving drying device for producing the dispersing agent is provided for the requirements.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an energy-conserving drying device is used in dispersant production to solve the current dispersant that proposes in the above-mentioned background art and mostly all be the stoving from the top down form in production, the bottom is heated inequality easily, needs the longer time to dry, leads to the problem that energy loss is big.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a dispersant production is with energy-conserving drying device, includes and supports the base, the upper end of supporting the base is provided with first drying cylinder, one side of first drying cylinder is provided with the second drying cylinder, the one end of first drying cylinder and second drying cylinder all is provided with inverter motor mechanism, the inside of first drying cylinder and second drying cylinder all is provided with the axis of rotation, the outer wall of axis of rotation is provided with the upset leaf, the side surface of first drying cylinder and second drying cylinder all is provided with into hot hole, and advances hot hole and first drying cylinder and second drying cylinder and be an organic whole structure, it is provided with a plurality of to advance hot hole, be provided with heating mechanism between first drying cylinder and the second drying cylinder, the lower extreme of heating mechanism is provided with first heat-inducing cover, one side of first heat-inducing cover is provided with second heat-inducing cover.

Preferably, the surface of one side of the first heat-radiating sleeve and the surface of one side of the second heat-radiating sleeve are both provided with an air outlet groove, the first heat-radiating sleeve and the second heat-radiating sleeve are of an integral structure, and a protective net is arranged inside the air outlet groove.

Preferably, the two ends of the front surface and the rear surface of the heating mechanism are provided with four bolt grooves, bolts are arranged in the bolt grooves, and the heating mechanism is in threaded connection with the first drying cylinder and the second drying cylinder through the bolts.

Preferably, the rotating shaft is provided with ball bearings at the joints of the first drying cylinder and the second drying cylinder, the outer wall of the overturning leaf is provided with an anti-collision pad, and the overturning leaf is connected with the rotating shaft in a welded mode.

Preferably, the one end outside of axis of rotation is provided with the stirring leaf, and stirs leaf and axis of rotation welded connection, the upper end of heating mechanism is provided with the protection casing, the inner wall of protection casing is provided with the safety net.

Preferably, the front surfaces of the first drying cylinder and the second drying cylinder are provided with feed inlets, the first drying cylinder and the second drying cylinder are connected in a welding mode, the rear surface of the joint of the first drying cylinder and the second drying cylinder is provided with a discharge outlet, and one end of the discharge outlet and one end of the feed inlet are provided with sealing covers.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a set up first drying cylinder and second drying cylinder on supporting the base, first drying cylinder and second drying cylinder present the tilting welding, and set up heating mechanism between first drying cylinder and second drying cylinder, heating mechanism is inside mainly to comprise heater strip and fan, discharge the heat from the air outlet duct, get into inside first drying cylinder and the second drying cylinder from the heat inlet hole, the first drying cylinder and the second drying cylinder of tilting are for whole horizontal or vertical drying cylinder, can fall into two slope parts with the inner space, all set up the axis of rotation that has turnover leaf and stirring leaf inside first drying cylinder and second drying cylinder, drive the axis of rotation through inverter motor mechanism and rotate, rely on the turnover leaf to overturn the material, it can be more even to be heated like this, rely on the stirring leaf to overturn the material of first drying cylinder and second drying cylinder junction, make the heat more easily get into the junction, avoid the bottom to be heated inequality, and the turnover of the mode cooperation turnover of turnover leaf of tilting, for the heat is from last to giving up, be full of the heat and the second drying cylinder is full of the whole quick drying time, thereby energy-saving and reducing the stoving effect.

2. The lower end of the heating mechanism is provided with the first heat-conducting sleeve and the second heat-conducting sleeve, the inner parts of the first heat-conducting sleeve and the second heat-conducting sleeve are communicated with the air outlet on the lower surface of the heating mechanism, heat is divided into two parts through the first heat-conducting sleeve and the second heat-conducting sleeve, the first drying cylinder and the second drying cylinder are respectively introduced, shunt drying is achieved, hot air is fed from two sides for drying, and compared with hot air feeding from one side, the time for temperature rise in the first drying cylinder and the second drying cylinder is shortened, so that the drying efficiency is improved, and an energy-saving effect is achieved.

Drawings

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

fig. 2 is a schematic view of the internal structure of the first drying cylinder and the second drying cylinder of the present invention;

fig. 3 is a schematic view of the internal structure of the first heat-conducting sleeve and the second heat-conducting sleeve of the present invention;

in the figure: 1. a support base; 2. a first drying drum; 3. a second drying drum; 4. a variable frequency motor mechanism; 5. a heating mechanism; 6. a protective cover; 7. a safety net; 8. a bolt slot; 9. a bolt; 10. a first heat-conducting sleeve; 11. a second heat-conducting sleeve; 12. a ball bearing; 13. a rotating shaft; 14. a heat inlet hole; 15. turning over the leaves; 16. an anti-collision pad; 17. stirring blades; 18. a discharge port; 19. a sealing cover; 20. an air outlet groove; 21. a protective net; 22. and (4) feeding a material inlet.

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.

Referring to fig. 1-3, the present invention provides an embodiment: the utility model provides a dispersant production is with energy-conserving drying device, including supporting base 1, the upper end of supporting base 1 is provided with first drying cylinder 2, one side of first drying cylinder 2 is provided with second drying cylinder 3, the one end of first drying cylinder 2 and second drying cylinder 3 all is provided with inverter motor mechanism 4, the inside of first drying cylinder 2 and second drying cylinder 3 all is provided with axis of rotation 13, the outer wall of axis of rotation 13 is provided with turnover leaf 15, the side surface of first drying cylinder 2 and second drying cylinder 3 all is provided with into hot hole 14, and it is integrative structure with first drying cylinder 2 and second drying cylinder 3 to advance hot hole 14, it is provided with a plurality of to advance hot hole 14, be provided with heating mechanism 5 between first drying cylinder 2 and the second drying cylinder 3, the lower extreme of heating mechanism 5 is provided with first heat-conducting sleeve 10, one side of first heat-conducting sleeve 10 is provided with second heat-conducting sleeve 11.

Further, a side surface of the first heat-conducting sleeve 10 and the second heat-conducting sleeve 11 is provided with an air outlet groove 20, the first heat-conducting sleeve 10 and the second heat-conducting sleeve 11 are of an integral structure, a protective net 21 is arranged inside the air outlet groove 20, the first heat-conducting sleeve 10 and the second heat-conducting sleeve 11 are used for shunting, the air enters the first drying cylinder 2 and the second drying cylinder 3 from the heat inlet hole 14, hot air drying is performed from two sides, the temperature rising time inside the first drying cylinder 2 and the second drying cylinder 3 is shortened, the drying efficiency is improved, and an energy-saving effect is achieved.

Further, both ends of the front and rear surfaces of the heating mechanism 5 are provided with four bolt grooves 8, the bolt grooves 8 are provided with four bolts 9, the bolts 9 are arranged inside the bolt grooves 8, the heating mechanism 5 is in threaded connection with the first drying cylinder 2 and the second drying cylinder 3 through the bolts 9, and the heating mechanism 5 is convenient to fix and detach.

Further, the rotation axis 13 all is provided with ball bearing 12 with first drying cylinder 2 and 3 junctions of second drying cylinder, and the outer wall of upset leaf 15 is provided with crash pad 16, and just upset leaf 15 and rotation axis 13 welded connection play the collision buffering effect to the material through crash pad 16, avoid the material to damage.

Further, the one end outside of axis of rotation 13 is provided with stirring leaf 17, and stirring leaf 17 and axis of rotation 13 welded connection, and the upper end of heating mechanism 5 is provided with protection casing 6, and the inner wall of protection casing 6 is provided with safety net 7, relies on upset leaf 15 and stirring leaf 17 to turn the material, avoids the bottom to be heated unevenly, further improves stoving effect, reduces the stoving time.

Further, the front surface of first drying cylinder 2 and second drying cylinder 3 all is provided with feed inlet 22, and first drying cylinder 2 and 3 welded connection of second drying cylinder, the rear surface of first drying cylinder 2 and 3 junctions of second drying cylinder is provided with discharge gate 18, and the one end of discharge gate 18 and feed inlet 22 all is provided with sealed lid 19, and sealed lid 19 and the equal thread tightening of discharge gate 18 and feed inlet 22 play sealed effect, avoid the heat to run off.

The working principle is as follows: during the use, with the material from two feed inlets 22 respectively get into first drying cylinder 2 and second drying cylinder 3, with heating mechanism 5 card between first drying cylinder 2 and second drying cylinder 3, utilize bolt 9 to fix, rely on heating mechanism 5 to produce hot-blastly, rely on first heat-elicitation cover 10 and second heat-elicitation cover 11 to shunt, get into inside first drying cylinder 2 and second drying cylinder 3 from advancing hot hole 14, simultaneously advance hot-blastly from both sides and dry, reduce the time that the inside temperature of first drying cylinder 2 and second drying cylinder 3 rises, thereby improve drying efficiency, play energy-conserving effect, utilize inverter motor mechanism 4 to drive axis of rotation 13 to rotate simultaneously, rely on upset leaf 15 and stirring leaf 17 to stir the material, avoid the bottom to be heated unevenly, further improve the stoving effect, reduce the stoving time, the material is discharged from discharge gate 18 after the stoving completion can.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes 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.

Claims (6)

1. The utility model provides a dispersant production is with energy-conserving drying device, includes support base (1), its characterized in that: the upper end of supporting base (1) is provided with first drying cylinder (2), one side of first drying cylinder (2) is provided with second drying cylinder (3), the one end of first drying cylinder (2) and second drying cylinder (3) all is provided with inverter motor mechanism (4), the inside of first drying cylinder (2) and second drying cylinder (3) all is provided with axis of rotation (13), the outer wall of axis of rotation (13) is provided with upset leaf (15), the side surface of first drying cylinder (2) and second drying cylinder (3) all is provided with into hot hole (14), and advances hot hole (14) and be an organic whole structure with first drying cylinder (2) and second drying cylinder (3), it is provided with a plurality of to advance hot hole (14), be provided with heating mechanism (5) between first drying cylinder (2) and the second drying cylinder (3), the lower extreme of heating mechanism (5) is provided with first heat-leading cover (10), one side of first heat-leading cover (10) is provided with second heat-leading cover (11).

2. The energy-saving drying device for dispersant production according to claim 1, characterized in that: the air-out structure is characterized in that an air-out groove (20) is formed in one side surface of each of the first heat-conducting sleeve (10) and the second heat-conducting sleeve (11), the air-out groove (20) is of an integral structure with the first heat-conducting sleeve (10) and the second heat-conducting sleeve (11), and a protective net (21) is arranged inside the air-out groove (20).

3. The energy-saving drying device for dispersant production according to claim 1, characterized in that: both ends of surface all are provided with bolt groove (8) around heating mechanism (5), and bolt groove (8) are provided with four, the inside in bolt groove (8) is provided with bolt (9), and heating mechanism (5) pass through bolt (9) and the equal threaded connection of first drying cylinder (2) and second drying cylinder (3).

4. The energy-saving drying device for producing the dispersing agent according to claim 1, wherein: the joint of the rotating shaft (13) and the first drying cylinder (2) and the second drying cylinder (3) is provided with a ball bearing (12), the outer wall of the overturning blade (15) is provided with an anti-collision pad (16), and the overturning blade (15) is connected with the rotating shaft (13) in a welding mode.

5. The energy-saving drying device for dispersant production according to claim 1, characterized in that: the one end outside of axis of rotation (13) is provided with stirring leaf (17), and stirs leaf (17) and axis of rotation (13) welded connection, the upper end of heating mechanism (5) is provided with protection casing (6), the inner wall of protection casing (6) is provided with safety net (7).

6. The energy-saving drying device for dispersant production according to claim 1, characterized in that: the front surface of first drying cylinder (2) and second drying cylinder (3) all is provided with feed inlet (22), and first drying cylinder (2) and second drying cylinder (3) welded connection, the rear surface of first drying cylinder (2) and second drying cylinder (3) junction is provided with discharge gate (18), the one end of discharge gate (18) and feed inlet (22) all is provided with sealed lid (19).

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