CN209490821U - A kind of phenolic aldehyde amine epoxy curing agent production insulation reaction kettle - Google Patents

Abstract

The utility model provides a kind of phenolic aldehyde amine epoxy curing agent production insulation reaction kettle, it includes reaction kettle, utilidor, temperature measuring mechanism and temperature control mechanism, its temperature difference that each position of reaction kettle is measured using temperature measuring mechanism, recycle the two sides of reaction kettle autoclave body that sliding slot is set, and helical tube body is connect with sliding block using buckle, when needing to reaction kettle autoclave body partial mirror temperature adjustment, the screw pitch between helical tube body is adjusted by mobile sliding block, adjust the arrangement of helical tube body, the screw pitch of the utilidor at reaction kettle low temperature is set to become smaller concentration, the screw pitch of the utilidor at reaction kettle high temperature is set to become larger sparse, and then adjust the temperature of reaction kettle autoclave body part, solve reaction kettle autoclave body locally can not accurate temperature adjustment the technical issues of.

Description

A kind of phenolic aldehyde amine epoxy curing agent production insulation reaction kettle

Technical field

The utility model relates to the production technical fields of modified by cardanol phenolic aldehyde amine epoxy curing agent, specially a kind of Phenolic aldehyde amine epoxy curing agent production insulation reaction kettle.

Background technique

Modified by cardanol phenolic aldehyde amine epoxy curing agent is consistent performance uniqueness curing agent, the characteristic with low viscosity, It is widely used in high solidification coating, the unique texture of modified by cardanol amine makes it have the particularity of curing agent and coating Can, as curing agent, have the advantages that rapid curing, the use being particularly suitable under cryogenic conditions has good operation Period is suitble to use throughout the year.

In the Chinese patent of Patent No. CN207941507U, a kind of anacardol multifunctional stirring reaction appearance is disclosed Device, autoclave body, inner coil pipe, outer coil pipe and changeover module, autoclave body are internally provided with reaction chamber；Inner coil pipe is installed on the interior of autoclave body Portion；Outer coil pipe is installed on the outer peripheral surface of autoclave body；The medium inlet of the medium inlet a and outer coil pipe of changeover module and inner coil pipe B connection；When it is in the first station, the medium inlet a of inner coil pipe is all closed with the medium inlet b of outer coil pipe；It is in second When station, inner coil pipe and outer coil pipe are passed through cooling water or hot steam simultaneously, can be rapidly cooled to material or quickly add respectively Heat effect；When it is in 3rd station, inner coil pipe or outer coil pipe work independently, and each lead into hot steam and cooling water is added Heat or cooling effect.

But appeal patent and cannot achieve to regulate and control the temperature of reaction kettle part, in entire reaction process, in reaction kettle Temperature be in general range, cannot achieve accuracy controlling.

Utility model content

In view of the above problems, the utility model provides a kind of phenolic aldehyde amine epoxy curing agent production insulation reaction Kettle is arranged sliding slot using in the two sides of reaction kettle autoclave body, and is connect helical tube body with sliding block using buckle, is being needed to reaction When kettle autoclave body partial mirror temperature adjustment, the screw pitch between helical tube body is adjusted by mobile sliding block, adjusts the arrangement of helical tube body, into And adjust the temperature of reaction kettle autoclave body part, solve reaction kettle autoclave body locally can not accurate temperature adjustment the technical issues of.

To achieve the above object, the utility model provides the following technical solutions:

A kind of phenolic aldehyde amine epoxy curing agent production insulation reaction kettle, including reaction kettle, spiral winding are set to this Utilidor on reaction kettle outer wall is provided with mixing component in the reaction kettle, and the utilidor is flexible hose, also wraps It includes:

Temperature measuring mechanism, the temperature measuring mechanism are set on the autoclave body of the reaction kettle, are measured anti-in the reaction kettle Answer temperature；And

Temperature control mechanism, the temperature control mechanism are set to the two sides of the reaction kettle autoclave body, adjust the utilidor Screw pitch.

As an improvement, the mixing component includes:

Stirring motor, the stirring motor are vertically arranged to the top of the reaction kettle；And

Stirrer paddle, the top of the stirrer paddle and the motor shaft of the stirring motor are coaxially connected, and bottom is vertical It is set in the reaction kettle, and it drives rotary setting by the stirring motor.

As an improvement, the reaction kettle includes:

First charging aperture, the first charging aperture is set to the top of the reaction kettle autoclave body, in the reaction kettle The connection of portion space；

Second charging aperture, the second charging aperture is set to the side of the reaction kettle autoclave body, in the reaction kettle The connection of portion space；And

Discharge port, the discharge port are set to the bottom of the reaction kettle autoclave body, the substance in the reaction kettle are discharged.

As an improvement, the utilidor includes:

Inlet, the inlet are set to the top of the utilidor, and setting is connected to liquid feed device；

Helical tube body, the helical tube body are arranged around the autoclave body of the reaction kettle at spiral；And

Liquid outlet, the liquid outlet are set to the bottom of the utilidor, and setting is connected to liquid feed device.

As an improvement, the temperature measuring mechanism includes:

First temperature measuring head, first temperature measuring head are set to the top of the reaction kettle, detect at the top of the reaction kettle Temperature；

Second temperature measuring head, second temperature measuring head are set to the middle part of the reaction kettle, detect in the middle part of the reaction kettle Temperature；And

Third temperature measuring head, the third temperature measuring head are set to the bottom of the reaction kettle, detect the reactor bottom Stabilization.

As an improvement, the two sides of the reaction kettle autoclave body, the vertical direction along reaction kettle are symmetrically arranged with sliding slot, the sliding slot Cross section be convex setting, and the temperature control mechanism is set in the sliding slot.

As an improvement, the temperature control mechanism includes:

Sliding block, the sliding block are slideably positioned in the sliding slot, are rectangular setting；

Buckle, it is described to buckle the middle part for being rotatably dispose in the sliding block, engage with the helical tube body；And goat's horn spiral shell Silk, the goat's horn screw are symmetrically disposed on the two sides of the buckle, penetrate the sliding block and sliding slot friction positions.This reality It is with novel beneficial effect:

(1) the utility model, which is utilized, is arranged sliding slot in the two sides of reaction kettle autoclave body, and utilizes buckle by helical tube body and cunning Block connection adjusts the screw pitch between helical tube body by mobile sliding block, adjusts when needing to reaction kettle autoclave body partial mirror temperature adjustment The arrangement of whole helical tube body, and then adjust the temperature of reaction kettle autoclave body part；

(2) the utility model is passed through heat insulation liquid using carrying out top to utilidor, and lower part exports heat insulation liquid, can be with When guaranteeing smooth outflow of the heat insulation liquid in utilidor, and needing for the heat insulation liquid in utilidor to be emptied completely, only The inlet at top need to be closed, heat insulation liquid can automatically be discharged from liquid outlet because of the factor of gravity；

(3) the utility model is rotatablely connected using buckle and sliding block, when making to clasp helical tube body, remains to make helix tube Body is surround according to hand of spiral spontaneous combustion, and helical tube body will not be made to guarantee the smooth of the flowing of heat insulation liquid there is a situation where bending, Helical tube body is protected simultaneously, is prolonged the service life.

In conclusion the utility model has many advantages, such as that structure is simple, temperature adjustment is convenient, is particularly suitable for modified by cardanol phenol The reaction kettle technical field of the production of aldehyde amine epoxy curing agent.

Detailed description of the invention

Fig. 1 is the signal of the utility model stereochemical structure；

Fig. 2 is the utility model schematic cross-sectional view；

Fig. 3 is the utility model utilidor schematic perspective view；

Fig. 4 is the utility model temperature control mechanism structural schematic diagram；

Fig. 5 is the utility model sliding slot cross-sectional structure schematic diagram；

Fig. 6 is the utility model temperature control mechanism schematic perspective view.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

In the description of the present invention, it should be understood that term " center ", " longitudinal direction ", " transverse direction ", " length ", " width Degree ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside", The orientation or positional relationship of the instructions such as " clockwise ", " counterclockwise " be based on the orientation or positional relationship shown in the drawings, be only for Convenient for description the utility model and simplify description, rather than the equipment of indication or suggestion meaning or element must have specifically Orientation is constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.

In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include one or more of the features.The meaning of " plurality " is two or two in the description of the present invention, More than, unless otherwise specifically defined.

Embodiment one:

As shown in Figures 1 and 2, a kind of production of phenolic aldehyde amine epoxy curing agent insulation reaction kettle, including reaction kettle 1, Spiral winding is set to the utilidor 2 on 1 outer wall of reaction kettle, is provided with mixing component 11, the guarantor in the reaction kettle 1 Warm pipeline 2 is flexible hose, further includes:

Temperature measuring mechanism 3, the temperature measuring mechanism 3 are set on the autoclave body of the reaction kettle 1, are measured in the reaction kettle 1 Reaction temperature；And

Temperature control mechanism 4, the temperature control mechanism 4 are set to the two sides of 1 autoclave body of reaction kettle, adjust the utilidor 2 screw pitch.

It should be noted that measuring temperature local in reaction kettle by temperature measuring mechanism 3, then adjusted using temperature control mechanism 4 The spiral distance of whole utilidor 2 concentrates utilidor 2 at low temperature, sparse at high temperature, and then adjusts each in reaction kettle 1 The temperature at position.

As shown in Fig. 2, as a preferred embodiment, the mixing component 11 includes:

Stirring motor 111, the stirring motor 111 are vertically arranged to the top of the reaction kettle 1；And

Stirrer paddle 112, the top of the stirrer paddle 112 and the motor shaft of the stirring motor 111 are coaxially connected, Bottom is vertically arranged in the reaction kettle 1, and it drives rotary setting by the stirring motor 111.

As shown in Figure 1, further, the reaction kettle 1 includes:

First charging aperture 12, the first charging aperture 12 is set to the top of 1 autoclave body of reaction kettle, with the reaction kettle 1 inner space connection；

Second charging aperture 13, the second charging aperture 13 is set to the side of 1 autoclave body of reaction kettle, with the reaction kettle 1 inner space connection；And

Discharge port 14, the discharge port 14 are set to the bottom of 1 autoclave body of reaction kettle, are discharged in the reaction kettle 1 Substance.

As shown in figure 3, as a preferred embodiment, the utilidor 2 includes:

Inlet 21, the inlet 21 are set to the top of the utilidor 2, setting are connected to liquid feed device；

Helical tube body 22, the helical tube body 22 are arranged around the autoclave body of the reaction kettle 1 at spiral；And

Liquid outlet 23, the liquid outlet 23 are set to the bottom of the utilidor 2, setting are connected to liquid feed device.

It should be noted that the inlet 21 in the utility model can be connected to liquid outlet 23 with same liquid feed device, The heat insulation liquid that liquid outlet 23 flows out flows into utilidor 2 again by the heating of liquid feed device, forms the heat insulation liquid of circulation Circulation system, can also separate be connected to.

As shown in Fig. 2, as a preferred embodiment, the temperature measuring mechanism 3 includes:

First temperature measuring head 31, first temperature measuring head 31 are set to the top of the reaction kettle 1, detect the reaction kettle The temperature at 1 top；

Second temperature measuring head 32, second temperature measuring head 32 are set to the middle part of the reaction kettle 1, detect the reaction kettle The temperature at 1 middle part；And

Third temperature measuring head 33, the third temperature measuring head 33 are set to the bottom of the reaction kettle 1, detect the reaction kettle The stabilization of 1 bottom.

It should be noted that the temperature at 1 top of the first temperature measuring head 31 detection reaction kettle, the second temperature measuring head 32 detect reaction kettle The temperature at 1 middle part, third temperature measuring head detect the temperature of 1 bottom of reaction kettle, pass through the first temperature measuring head 31, the second temperature measuring head 32 and the The detection respectively of three temperature measuring heads 33 embodies the difference of each spot temperature of reaction kettle, convenient for temperature control mechanism 4 to 2 screw pitch of utilidor Adjusting.

As shown in figs. 4 and 5, as a preferred embodiment, the two sides of 1 autoclave body of the reaction kettle, along reaction kettle 1 Vertical direction be symmetrically arranged with sliding slot 15, the cross section of the sliding slot 15 is convex setting, and the temperature control mechanism 4 is set to this In sliding slot 15.

As shown in Fig. 4 and Fig. 6, further, the temperature control mechanism 4 includes:

Sliding block 41, the sliding block 41 are slideably positioned in the sliding slot 15, are rectangular setting；

Buckle 42, the buckle 42 are rotatably dispose in the middle part of the sliding block 41, engage with the helical tube body 22；With And

Goat's horn screw 43, the goat's horn screw 43 are symmetrically disposed on the two sides of the buckle 42, penetrate the sliding block 41 It rubs and positions with the sliding slot 15.

It should be noted that the temperature at each position of reaction kettle 1 measured according to temperature measuring mechanism 3, by rotating goat's horn screw 43, release fixation to sliding block 41, later sliding slider 41, by buckle 42 drive helical tube bodies 22 along the chute 15 upwards or to Lower movement makes the screw pitch of the helical tube body 22 of reaction kettle 1 at low temperature become smaller, and helical tube body 22 is intensively kept the temperature, and is made at high temperature Reflect that the screw pitch of the helical tube body 22 of kettle 1 becomes larger.

The course of work:

The temperature at 1 top of reaction kettle is detected by the first temperature measuring head 31, the second temperature measuring head 32 detects the temperature at 1 middle part of reaction kettle Degree, third temperature measuring head detect the temperature of 1 bottom of reaction kettle, pass through the first temperature measuring head 31, the second temperature measuring head 32 and third temperature measuring head 33 detection respectively embodies the difference of each spot temperature of reaction kettle, the temperature according to each position of reaction kettle 1 that temperature measuring mechanism 3 is measured Degree releases the fixation to sliding block 41, later sliding slider 41, drives helix tube by buckle 42 by rotating goat's horn screw 43 Body 22 15 moves up or down along the chute, so that the screw pitch of the helical tube body 22 of reaction kettle 1 at low temperature is become smaller, helical tube body 22 is close Collection is kept the temperature, and makes to reflect that the screw pitch of the helical tube body 22 of kettle 1 becomes larger at high temperature.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this Made any modifications, equivalent replacements, and improvements etc., should be included in the utility model within the spirit and principle of utility model Protection scope within.

Claims (7)

1. a kind of production of phenolic aldehyde amine epoxy curing agent insulation reaction kettle, including reaction kettle (1), spiral winding is set to this Utilidor (2) on reaction kettle (1) outer wall, the reaction kettle (1) is interior to be provided with mixing component (11), the utilidor It (2) is flexible hose, which is characterized in that further include:

Temperature measuring mechanism (3), the temperature measuring mechanism (3) are set on the autoclave body of the reaction kettle (1), measure the reaction kettle (1) reaction temperature in；And

Temperature control mechanism (4), the temperature control mechanism (4) are set to the two sides of the reaction kettle (1) autoclave body, adjust the insulating tube The screw pitch in road (2).

2. a kind of phenolic aldehyde amine epoxy curing agent production insulation reaction kettle according to claim 1, which is characterized in that The mixing component (11) includes:

Stirring motor (111), the stirring motor (111) are vertically arranged to the top of the reaction kettle (1)；And

Stirrer paddle (112), the top of the stirrer paddle (112) and the motor shaft of the stirring motor (111) are coaxially connected, Its bottom is vertically arranged in the reaction kettle (1), and it drives rotary setting by the stirring motor (111).

3. a kind of phenolic aldehyde amine epoxy curing agent production insulation reaction kettle according to claim 1, which is characterized in that The reaction kettle (1) includes:

First charging aperture (12), the first charging aperture (12) are set to the top of the reaction kettle (1) autoclave body, react with this The inner space of kettle (1) is connected to；

Second charging aperture (13), the second charging aperture (13) are set to the side of the reaction kettle (1) autoclave body, react with this The inner space of kettle (1) is connected to；And

Discharge port (14), the discharge port (14) are set to the bottom of the reaction kettle (1) autoclave body, and the reaction kettle is discharged (1) substance in.

4. a kind of phenolic aldehyde amine epoxy curing agent production insulation reaction kettle according to claim 1, which is characterized in that The utilidor (2) includes:

Inlet (21), the inlet (21) are set to the top of the utilidor (2), are connected to and set with liquid feed device It sets；

Helical tube body (22), autoclave body of the helical tube body (22) around the reaction kettle (1) are arranged at spiral；And

Liquid outlet (23), the liquid outlet (23) are set to the bottom of the utilidor (2), are connected to and set with liquid feed device It sets.

5. a kind of phenolic aldehyde amine epoxy curing agent production insulation reaction kettle according to claim 1, which is characterized in that The temperature measuring mechanism (3) includes:

First temperature measuring head (31), first temperature measuring head (31) are set to the top of the reaction kettle (1), detect the reaction Temperature at the top of kettle (1)；

Second temperature measuring head (32), second temperature measuring head (32) are set to the middle part of the reaction kettle (1), detect the reaction Temperature in the middle part of kettle (1)；And

Third temperature measuring head (33), the third temperature measuring head (33) are set to the bottom of the reaction kettle (1), detect the reaction The stabilization of kettle (1) bottom.

6. a kind of phenolic aldehyde amine epoxy curing agent production insulation reaction kettle according to claim 4, which is characterized in that The two sides of reaction kettle (1) autoclave body, are symmetrically arranged with sliding slot (15) along the vertical direction of reaction kettle (1), the sliding slot (15) Cross section is convex setting, and the temperature control mechanism (4) is set in the sliding slot (15).

7. a kind of phenolic aldehyde amine epoxy curing agent production insulation reaction kettle according to claim 6, which is characterized in that The temperature control mechanism (4) includes:

Sliding block (41), the sliding block (41) are slideably positioned in the sliding slot (15), are rectangular setting；

It buckles (42), the buckle (42) is rotatably dispose in the middle part of the sliding block (41), blocks with the helical tube body (22) It closes；And

Goat's horn screw (43), the goat's horn screw (43) are symmetrically disposed on the two sides of the buckle (42), penetrate the sliding block (41) it is positioned with the sliding slot (15) friction.