CN213528637U - Prevent reation kettle for dye production of caking - Google Patents

Abstract

The utility model relates to a prevent reation kettle for dyestuff production of caking, it includes the vertical reation kettle body of arranging, the outer wall cladding of reation kettle body has the heat-conducting layer, spiral helicine recess has been seted up to the inner wall of heat-conducting layer, from the top of heat-conducting layer to the direction of bottom, the coiled diameter of recess shortens gradually, be equipped with the heater strip that is used for heating to the reation kettle body in the recess, the heater strip is the heliciform, in vertical direction, the wound diameter of heater strip shortens gradually from top to bottom, the heater strip is fixed along the outer wall winding of reation kettle body, this application has when temperature reduces, can reduce the effect that the auxiliary agent takes place the coagulation phenomenon.

Description

Prevent reation kettle for dye production of caking

Technical Field

The application relates to the technical field of dye production equipment, in particular to a reaction kettle for dye production, which prevents caking.

Background

Dyes are organic compounds that give other materials a vivid and strong hue, and are also called synthetic dyes because pigments used at present are artificially synthesized. Dyes and pigments are generally compounds which are inherently coloured and which are capable of giving other substances a vivid and strong shade in the molecular or dispersed state.

The dye is usually produced and processed in a reaction kettle, and an auxiliary agent is required to be added during the production and processing of certain dyes so as to optimize the performance of the dyes.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: when the temperature is low, the auxiliary agent can be solidified in the reaction kettle, and the normal production of the dye is influenced.

SUMMERY OF THE UTILITY MODEL

In order when temperature reduces, reduce the phenomenon that the auxiliary agent solidifies in reation kettle, this application provides a dyestuff production reation kettle who prevents the caking.

The application provides a prevent reation kettle for dye production of caking adopts following technical scheme: the utility model provides a prevent reation kettle for dyestuff production of caking, includes the vertical reation kettle body of arranging, the outer wall cladding of reation kettle body has the heat-conducting layer, and spiral helicine recess has been seted up to the inner wall of heat-conducting layer, and from the top of heat-conducting layer to the direction of bottom, the coiled diameter of recess shortens gradually, is equipped with the heater strip that is used for heating the reation kettle body in the recess, and the heater strip is the heliciform, and in vertical direction, the winding diameter of heater strip shortens gradually from top to bottom, and the heater strip is fixed along the outer wall winding of reation kettle body.

Through adopting above-mentioned technical scheme, spiral helicine recess and reation kettle body press from both sides tightly fixedly to the heater strip jointly, set up the heater strip appearance into the heliciform and can increase the area of contact of heater strip and reation kettle body, improve the heating effect to the reation kettle body, the heater strip heats the heat-conducting layer, the heat-conducting layer gives the reation kettle body with heat transfer, the heat-conducting layer has improved the heating efficiency of heater strip to the reation kettle body, when temperature reduces, utilize the heater strip to heat the reation kettle body and can reduce this internal auxiliary agent of reation kettle and take place the phenomenon of solidifying, guarantee the normal processing production of dyestuff.

Optionally: the inner wall of the groove facing the reaction kettle body is designed to be arc-surface-shaped and matched with the heating wire.

Through adopting above-mentioned technical scheme, establish the recess towards the inner wall of reation kettle body into the arc surface form with the heater strip adaptation can increase the area of contact of heater strip and heat-conducting layer, improve the heater strip to the heat-conducting layer heat transfer's efficiency.

Optionally: the surface of the heating wire is wrapped with a high-temperature-resistant insulating rubber sheet.

Through adopting above-mentioned technical scheme, the heater strip can be protected to the insulating film, prolongs the life of heater strip, reduces the risk of heater strip electric leakage simultaneously, makes the heater strip can normally heat the reation kettle body.

Optionally: the outer wall cladding of heat-conducting layer has the heat preservation, and the dovetail along vertical face trend is seted up to the inner wall of heat preservation, and the outer wall of heat-conducting layer has set firmly the arch of dovetail form, arch and dovetail sliding fit.

Through adopting above-mentioned technical scheme, the heat preservation can reduce the thermal loss of heat-conducting layer, makes the heat-conducting layer keep higher temperature for a long time, and the reinforcing heat-conducting layer is to the heating effect of reation kettle body, and the installation location of heat preservation can be convenient for to protruding sliding fit with the dovetail, when the heat preservation installed in place, the arch gets into in the dovetail, can prevent that the heat preservation from rotating for the heat-conducting layer, makes the heat preservation and the keeping relatively fixed of heat-conducting layer.

Optionally: the inclined inner wall of the dovetail groove is provided with a limiting groove, the convex inclined plane is fixedly provided with a clamping block, and when the two ends of the heat preservation layer are respectively aligned with the two ends of the heat conduction layer, the clamping block is clamped and matched with the limiting groove.

Through adopting above-mentioned technical scheme, when the both ends of heat preservation align the both ends of heat-conducting layer respectively, the heat preservation installation targets in place, and the fixture block card that bellied inclined plane set firmly goes into the spacing inslot, and the heat-conducting layer carries out fixed support through the joint cooperation of arch and spacing groove to the heat preservation.

Optionally: the outer wall cladding of heat preservation has the inoxidizing coating that is used for protecting the heat preservation, and the outer wall of heat preservation has set firmly the joint piece, and vertical spout has been seted up from the top of inoxidizing coating to the inner wall of inoxidizing coating, and the horizontally draw-in groove has been seted up to the inside wall of spout, at vertical direction joint piece and spout sliding fit, at horizontal direction joint piece and draw-in groove sliding fit.

Through adopting above-mentioned technical scheme, during the installation inoxidizing coating, with the spout alignment joint piece, slowly entangle the heat preservation with the inoxidizing coating from the bottom of heat preservation, in the joint piece gets into the spout gradually, when the both ends of inoxidizing coating align the both ends of heat preservation, rotate the inoxidizing coating and make the joint piece slide in the draw-in groove, the heat preservation supports the inoxidizing coating through the butt cooperation of joint piece with the draw-in groove inner wall, the inoxidizing coating installation targets in place.

Optionally: the outer wall of inoxidizing coating has seted up annular mounting groove, and it is useful for supporting the annular clamp band of tight heat preservation with the inoxidizing coating to embed in the annular mounting groove.

Through adopting above-mentioned technical scheme, can support tight heat preservation with the inoxidizing coating after the ring clamp area embedding annular mounting inslot, frictional force increase between inoxidizing coating and the heat preservation, frictional force between inoxidizing coating and the heat preservation can make the inoxidizing coating keep fixed for the heat preservation.

Optionally: the annular clamping band is telescopic in the circumferential direction.

Through adopting above-mentioned technical scheme, after heater strip heating heat-conducting layer and reation kettle body, heat-conducting layer, heat preservation and inoxidizing coating all can increase at the length of circumference, have the annular clamping band of elasticity in circumference and can change along with the change of inoxidizing coating circumference size in step.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the heat conduction layer and the heating wires are arranged on the outer wall of the reaction kettle body, so that the phenomenon that the auxiliary agent in the reaction kettle body is solidified can be reduced after the reaction kettle body is heated by the heating wires, and the normal processing production of the dye is ensured;

2. the dovetail groove is arranged to be in sliding fit with the bulge, so that the heat-insulating layer is convenient to position and mount;

3. through setting up the sliding fit of joint piece respectively with spout and draw-in groove, the installation and the fixed connection of the inoxidizing coating of being convenient for.

Drawings

FIG. 1 is a schematic structural view of a dye production reaction kettle for preventing caking according to an embodiment of the present application;

fig. 2 is an exploded schematic view embodying a heating wire;

FIG. 3 is a cross-sectional view of the heating wire;

FIG. 4 is a schematic view showing a structure of a latch;

FIG. 5 is a schematic view showing a dovetail groove structure;

fig. 6 is an exploded view of an embodiment of an annular mounting groove.

Description of reference numerals: 1. a reaction kettle body; 2. a support leg; 3. an operating platform; 4. a heat conductive layer; 41. a groove; 42. a protrusion; 421. a clamping block; 5. heating wires; 51. insulating rubber sheets; 6. a heat-insulating layer; 61. a dovetail groove; 611. a limiting groove; 62. a clamping block; 7. a protective layer; 71. a chute; 711. a card slot; 72. an annular mounting groove; 8. an endless clamping band.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses a prevent reation kettle for dyestuff production of caking, refer to fig. 1 and fig. 2, prevent reation kettle for dyestuff production of caking includes vertical reation kettle body 1, reation kettle body 1 is radius platform form, reation kettle body 1's top is the charge door, the bottom is the discharge gate, subaerial fixedly connected with four landing legs 2, the common integrated into one piece of one end that four landing legs 2 kept away from ground has horizontal operation platform 3, the top of reation kettle body 1 runs through operation platform 3 and operation platform 3 welded fastening, reation kettle body 1's outer wall cladding has heat-conducting layer 4, be equipped with heater strip 5 in the heat-conducting layer 4, heat-conducting layer 4's outer wall cladding has heat preservation 6, heat preservation 6's outer wall cladding has inoxidizing coating 7, heat-conducting layer 4, heat preservation 6 and inoxidizing coating 7 all are; four landing legs 2 support reation kettle body 1 through operation platform 3, when temperature reduces, utilize heater strip 5 to heat reation kettle body 1 and can reduce the phenomenon that the auxiliary agent in reation kettle body 1 takes place to solidify, guarantee the normal processing production of dyestuff, heater strip 5 heats heat-conducting layer 4, heat-conducting layer 4 gives reation kettle body 1 with heat transfer, heat-conducting layer 4 has improved heater strip 5 to reation kettle body 1's heating efficiency, heat preservation 6 can reduce the thermal loss of heat-conducting layer 4, make heat-conducting layer 4 and reation kettle body 1 keep higher temperature for a long time, heat preservation 6 can be protected to inoxidizing coating 7, prolong the life of heat preservation 6 and heat-conducting layer 4.

Refer to fig. 2 and fig. 3, heat-conducting layer 4 adopts the preparation of stainless steel raw and other materials, spiral helicine recess 41 has been seted up to heat-conducting layer 4's inner wall, in vertical direction, the coiled diameter of recess 41 top-down shortens gradually, heater strip 5 is located recess 41, heater strip 5 is the heliciform, in vertical direction, the coiled diameter of heater strip 5 top-down shortens gradually, recess 41 is established to the arc surface form with heater strip 5 adaptation towards reation kettle body 1's inner wall, can increase heater strip 5 and heat-conducting layer 4's area of contact, improve heater strip 5 heat transfer efficiency to heat-conducting layer 4, heater strip 5's surface cladding has the insulating rubber of high temperature resistance who adopts the preparation of halogenated butyl rubber raw and other materials, insulating rubber piece 51 and reation.

Referring to fig. 4 and 5, the heat insulating layer 6 is made of aluminum silicate, the inner wall of the heat insulating layer 6 is provided with two sets of dovetail grooves 61 along the vertical direction, the two ends of the dovetail grooves 61 extend to the top end and the bottom end of the heat insulating layer 6 respectively, the outer wall of the heat conducting layer 4 is integrally formed with two sets of dovetail-shaped protrusions 42, the two sets of protrusions 42 are away from each other and extend along the vertical direction, the two sets of protrusions 42 are respectively in sliding fit with the two sets of dovetail grooves 61, the two inclined inner walls of each set of dovetail grooves 61 are provided with limiting grooves 611 located on the same horizontal plane, the limiting grooves 611 are close to the bottom end of the heat insulating layer 6, two inclined planes of each set of protrusions 42 are integrally formed with clamping blocks 421 located on the same horizontal plane, the clamping blocks 421 are close to the bottom end of the heat conducting layer 4, when the two ends of the heat insulating, the inner wall of the heat-insulating layer 6 is fixedly bonded with the outer wall of the heat-conducting layer 4; heat preservation 6 can reduce the thermal loss of heat-conducting layer 4, make heat-conducting layer 4 keep higher temperature for a long time, strengthen heat-conducting layer 4 to reation kettle body 1's heating effect, protruding 42 can be convenient for heat preservation 6's installation location with dovetail 61's sliding fit, when heat preservation 6's both ends align heat-conducting layer 4's both ends respectively, heat preservation 6 is installed in place, protruding 42 gets into in dovetail 61 completely, fixture block 421 cards go into in the spacing groove 611, heat-conducting layer 4 carries out the fixed stay to heat preservation 6 through protruding 42 and spacing groove 611's joint cooperation, make heat preservation 6 and heat-conducting layer 4 keep relatively fixed.

Referring to fig. 5 and 6, the protective layer 7 is made of aluminum alloy raw materials, two clamping blocks 62 which are mutually deviated are integrally formed on the outer wall of the heat insulation layer 6, the two clamping blocks 62 are collinear with the diameter of the heat insulation layer 6 through connecting lines at the same positions of the two clamping blocks, the two clamping blocks 62 are close to the top end of the heat insulation layer 6, a vertical sliding groove 71 is formed in the inner wall of the protective layer 7 through the top end of the protective layer, a horizontal clamping groove 711 is formed in the inner side wall of the sliding groove 71, the clamping groove 711 is close to the bottom of the sliding groove 71, the clamping blocks 62 are in sliding fit with the sliding; when installation inoxidizing coating 7, with spout 71 alignment joint piece 62, slowly entangle heat preservation 6 with inoxidizing coating 7 from the bottom of heat preservation 6, joint piece 62 gets into spout 71 gradually in, when the both ends of inoxidizing coating 7 align the both ends of heat preservation 6, rotates inoxidizing coating 7 and makes joint piece 62 slide in draw-in groove 711, and heat preservation 6 supports inoxidizing coating 7 through the butt cooperation of joint piece 62 with draw-in groove 711 inner wall, and inoxidizing coating 7 is installed and is targetting in place.

Referring to fig. 6, the outer wall of the protective layer 7 is provided with two parallel and horizontal annular mounting grooves 72, an annular clamping band 8 is embedded in each of the two annular mounting grooves 72, and the annular clamping band 8 has elasticity in the circumferential direction; annular clamp takes 8 embedding annular mounting groove 72 internal back can support tight heat preservation 6 with inoxidizing coating 7, the frictional force increase between inoxidizing coating 7 and the heat preservation 6, frictional force between inoxidizing coating 7 and the heat preservation 6 can make inoxidizing coating 7 keep fixed for heat preservation 6, after heater strip 5 heats heat-conducting layer 4 and reation kettle body 1, heat-conducting layer 4, heat preservation 6 and inoxidizing coating 7 all can increase at the length of circumference, annular clamp takes 8 that has elasticity in circumference can be along with 7 circumference size's of inoxidizing coating change in step.

The implementation principle of the reaction kettle for dye production for preventing caking in the embodiment of the application is as follows: when the temperature is reduced, the reaction kettle body 1 is heated by the heating wire 5 to improve the temperature of the reaction kettle body 1, the phenomenon that an auxiliary agent in the reaction kettle body 1 is solidified is reduced, the normal processing and production of dye are ensured, the heat conducting layer 4 is heated by the heating wire 5, the heat conducting layer 4 transmits heat to the reaction kettle body 1, the heat conducting layer 4 improves the heating efficiency of the heating wire 5 to the reaction kettle body 1, the heat conducting layer 6 has poor heat conductivity, the heat loss of the heat conducting layer 4 can be reduced by the heat insulating layer 6, the heat conducting layer 4 and the reaction kettle body 1 keep high temperature for a long time, the heat insulating layer 6 can be protected by the protective layer 7, the service lives of the heat insulating layer 6 and the heat conducting layer 4 are prolonged, the protective layer 7 can be tightly abutted against the heat insulating layer 6 after the annular clamping belt 8 is embedded into the annular mounting groove 72, the friction force between the protective layer 7 and, the annular clamping strip 8 enhances the connection integrity of the heat-insulating layer 6 of the protective layer 7 and the heat-conducting layer 4.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a prevent reation kettle for dye production of caking, includes vertical arrangement's reation kettle body (1), its characterized in that: the outer wall cladding of reation kettle body (1) has heat-conducting layer (4), spiral helicine recess (41) have been seted up to the inner wall of heat-conducting layer (4), from the top of heat-conducting layer (4) to the direction of bottom, the coiled diameter of recess (41) shortens gradually, be equipped with in recess (41) and be used for heater strip (5) to reation kettle body (1) heating, heater strip (5) are the heliciform, in vertical direction, heater strip (5) winding diameter shortens gradually from top to bottom, heater strip (5) are fixed along the outer wall winding of reation kettle body (1).

2. The anti-caking reaction kettle for dye production according to claim 1, wherein: the inner wall of the groove (41) facing the reaction kettle body (1) is designed to be arc-surface-shaped and matched with the heating wire (5).

3. The anti-caking reaction kettle for dye production according to claim 1, wherein: the surface of the heating wire (5) is wrapped with a high-temperature-resistant insulating rubber sheet.

4. The anti-caking reaction kettle for dye production according to claim 1, wherein: the outer wall cladding of heat-conducting layer (4) has heat preservation (6), and dovetail (61) along vertical face trend are seted up to the inner wall of heat preservation (6), and the outer wall of heat-conducting layer (4) has set firmly protruding (42) of dovetail form, protruding (42) and dovetail (61) sliding fit.

5. The anti-caking reaction kettle for dye production according to claim 4, wherein: the inclined inner wall of the dovetail groove (61) is provided with a limiting groove (611), the inclined surface of the protrusion (42) is fixedly provided with a clamping block (421), and when the two ends of the heat insulation layer (6) are respectively aligned with the two ends of the heat conduction layer (4), the clamping block (421) is in clamping fit with the limiting groove (611).

6. The anti-caking reaction kettle for dye production according to claim 4, wherein: the outer wall cladding of heat preservation (6) has inoxidizing coating (7) that are used for protecting heat preservation (6), and the outer wall of heat preservation (6) has set firmly joint piece (62), and vertical spout (71) have been seted up from the top of inoxidizing coating (7) to the inner wall of inoxidizing coating (7), and horizontally draw-in groove (711) have been seted up to the inside wall of spout (71), at vertical direction joint piece (62) and spout (71) sliding fit, at horizontal direction joint piece (62) and draw-in groove (711) sliding fit.

7. The anti-caking reaction kettle for dye production according to claim 6, wherein: annular mounting groove (72) have been seted up to the outer wall of inoxidizing coating (7), and annular mounting groove (72) embedded have be used for supporting annular clamping band (8) of heat preservation (6) with inoxidizing coating (7).

8. The anti-caking reaction kettle for dye production according to claim 7, wherein: the annular clamping band (8) is telescopic in the circumferential direction.

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