CN217154543U - A firing equipment for preparation of glycerin monolaurate - Google Patents

Abstract

The utility model discloses a heating device for preparing glycerol monolaurate, which comprises a heating barrel and a stirring mechanism; heating a barrel: a feeding pipe is arranged at a feeding port at the upper end of the outer arc surface of the heating barrel, a discharging pipe is arranged at a discharging port at the lower end of the outer arc surface of the heating barrel, electric heating wires which are uniformly distributed are arranged in an annular groove in the middle of the inner arc wall of the heating barrel, a heat-conducting annular plate is arranged in the annular groove in the middle of the inner arc wall of the heating barrel, and the inner arc wall of the heat-conducting annular plate is matched with the inner arc wall of the heating barrel; the stirring mechanism comprises: the stirring device comprises a hollow stirring frame and a motor, wherein the hollow stirring frame is rotatably connected to the center of the interior of a heating barrel through a bearing, and the motor is arranged on the upper surface of the heating barrel; this a firing equipment for preparation of monolaurin acid glyceride can carry out high-efficient stirring to monolaurin acid glyceride raw materials in the heating process, ensures that all monolaurin acid glyceride raw materials inside the heating barrel can both be in the motion state and guarantee the homogeneity of being heated to promote the efficiency of heating work.

Description

A firing equipment for preparation of glycerin monolaurate

Technical Field

The utility model relates to a glycerol monolaurate preparation technical field specifically is a firing equipment for glycerol monolaurate preparation.

Background

The monolaurin is formed by direct esterification of lauric acid and glycerol, and is generally flaky or oily, white or light yellow fine granular crystal in appearance. It is not only an excellent emulsifier, but also a safe, efficient and broad-spectrum antibacterial agent, is not limited by pH, still has good antibacterial effect under neutral or slightly alkaline conditions, and has the defect of water insolubility, thus limiting the application thereof.

The lauric acid monoglyceride has the capability of resisting pathogenic microorganism infection, and is widely applied to products such as infant milk powder, rice flour and the like. Also can be widely added into baked food to improve the quality of rice and flour products. Is a safe and efficient broad-spectrum bactericide. In the preparation of glycerol monolaurate, heating equipment is required to promote the reaction of glycerol monolaurate.

However, the existing heating equipment for preparing the glycerol monolaurate can only adopt an electric heating mode to heat the glycerol monolaurate, and the overall process of heating work is easily affected by the glycerol monolaurate at a part far away from an electric heating wire due to uneven heating, so that the heating efficiency is low.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide a firing equipment for preparation of monolaurin glyceride, can carry out high-efficient stirring to monolaurin glyceride raw materials in the heating process, ensure that the inside all monolaurin glyceride raw materials of heating barrel can both be in the motion state and guarantee the homogeneity of being heated to promote the efficiency of heating work, 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 heating device for preparing glycerol monolaurate comprises a heating barrel and a stirring mechanism;

heating a barrel: a feeding pipe is arranged at a feeding port at the upper end of the outer arc surface of the heating barrel, a discharging pipe is arranged at a discharging port at the lower end of the outer arc surface of the heating barrel, electric heating wires which are uniformly distributed are arranged in an annular groove in the middle of the inner arc wall of the heating barrel, a heat-conducting annular plate is arranged in the annular groove in the middle of the inner arc wall of the heating barrel, and the inner arc wall of the heat-conducting annular plate is matched with the inner arc wall of the heating barrel;

the stirring mechanism comprises: the stirring device comprises a hollow stirring frame and a motor, wherein the hollow stirring frame is rotatably connected to the center of the interior of a heating barrel through a bearing;

wherein: the upper surface of heating bucket is equipped with the singlechip, and external power source is connected to the input electricity of singlechip, and the output of singlechip is all connected to the equal electricity of input of electric heating wire and motor, can carry out high-efficient stirring to monolaurate glyceride raw materials in the heating process, ensures that all monolaurate glyceride raw materials inside the heating bucket can both be in the motion state and guarantee the homogeneity of being heated to promote the efficiency of heating work.

Further, rabbling mechanism still includes hollow cover and air supply pipe, the inside roof of heating bucket is established in to hollow cover, and hollow stirring frame passes through the bearing and is connected with the commentaries on classics hole rotation at hollow cover bottom surface middle part, and the breach of admitting air that hollow stirring frame extrados upper end bilateral symmetry set up all is located the inside of hollow cover, is equipped with the air supply pipe in the air inlet of heating bucket upper surface, and the bottom of air supply pipe is linked together with the air inlet of hollow cover extrados, can let in outside high-temperature gas medium from inside and the glycerol monolaurate raw materials take place the heat transfer and make its intensification.

Further, rabbling mechanism still includes and runs through the pipe, it sets up respectively in the through-hole that evenly sets up on hollow stirring frame to run through the pipe, can promote heat transfer area of contact to improve the efficiency of heating work.

Further, rabbling mechanism still includes diaphragm, first stirring frame, spur gear and pinion, the outer cambered surface upper end of hollow stirring frame is located to the fixed cover of diaphragm, all is connected with first stirring frame through the bearing rotation in the bearing hole at both ends about the diaphragm upper surface, and the upper end of first stirring frame all is equipped with the spur gear, and the spur gear is established on the inner arc wall top of heating bucket, and two spur gears are connected with the meshing of pinion simultaneously, can carry out high-efficient stirring to the glycerol monolaurate raw materials for the glycerol monolaurate raw materials can the thermally equivalent.

Further, the fixed cover of downside extension end department of hollow stirring frame is equipped with the awl fluted disc, and the awl fluted disc is located the outside downside of heating barrel, and the inner arc wall lower extreme of heating barrel is connected with the second puddler through bearing symmetry rotation, and the outside extension end department that keeps away from mutually of two second puddlers all is equipped with bevel gear, and two bevel gears are connected with the meshing of awl fluted disc simultaneously, can stir the monolaurate glycerine raw materials of heating barrel bottom.

Further, the inside bottom surface of heating bucket is equipped with temperature sensor, and the input of singlechip is connected to temperature sensor's output electricity, can carry out real-time supervision to the environmental stability of heating bucket inside.

Further, the symmetry is equipped with two landing legs in the extrados middle part of heating bucket, and the bottom of landing leg all with bottom suspension fagging fixed connection, can provide the supporting role for heating bucket, ensure operational environment's stability.

Compared with the prior art, the beneficial effects of the utility model are that: the heating device for preparing the glycerol monolaurate has the following advantages:

1. the inside of heating barrel is sent into through the inlet pipe to monolaurin's preparation raw materials, regulation and control through the singlechip, the electric energy conversion of electric heating wire circular telegram is heat energy, can make the inside monolaurin raw materials of heating barrel heat up behind the heat conduction effect of heat conduction crown plate, personnel can also send into the inside of hollow stirring frame with outside high-temperature gas medium through air supply pipe and hollow cover, make high-temperature gas medium take place the heat transfer with monolaurin raw materials from the center of heating barrel with the help of hollow stirring frame, and partial monolaurin raw materials can further promote heat transfer area of contact when the flow passes through the through pipe, thereby improve the efficiency of heating work, temperature sensor then can carry out real-time supervision to the environmental stability of heating barrel inside.

2. Regulation and control through the singlechip, when motor operation drives hollow stirring frame and diaphragm rotation, receive the meshing connection relation influence of flat gear and flat ring gear, can make first agitator frame take place the rotation when being circular motion around the motor output shaft, carry out high-efficient stirring to monolaurate glyceride raw materials, make monolaurate glyceride raw materials can the thermally equivalent, and hollow stirring frame still can drive the bevel gear cocurrent rotation when rotatory, receive the meshing connection relation influence of bevel gear and bevel gear dish, two second puddlers can be rotatory along with it and stir the monolaurate glyceride raw materials of heating barrel bottom, ensure that all monolaurate glyceride raw materials inside the heating barrel can both be in the motion state and guarantee the homogeneity of being heated, make monolaurate glyceride raw materials rapid heating up and accomplish heating work.

Drawings

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

FIG. 2 is a schematic view of the inner cross-section structure of the present invention;

FIG. 3 is a schematic view of the in-plane cross-sectional structure of the present invention;

fig. 4 is an enlarged schematic view of the a position of the present invention.

In the figure: 1 heating bucket, 2 inlet pipes, 3 discharging pipes, 4 electric heating wires, 5 heat conduction ring plates, 6 stirring mechanisms, 61 hollow stirring frames, 62 motors, 63 hollow covers, 64 air supply pipes, 65 through pipes, 66 transverse plates, 67 first stirring frames, 68 flat gears, 69 flat gear rings, 7 single-chip microcomputers, 8 conical fluted discs, 9 second stirring rods, 10 bevel gears, 11 temperature sensors, 12 support legs and 13 bottom support plates.

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. 1-4, the present embodiment provides a technical solution: a heating device for preparing glycerol monolaurate comprises a heating barrel 1 and a stirring mechanism 6;

heating barrel 1: a feeding pipe 2 is arranged at a feeding port at the upper end of the outer arc surface of the heating barrel 1, a discharging pipe 3 is arranged at a discharging port at the lower end of the outer arc surface of the heating barrel 1, electric heating wires 4 which are uniformly distributed are arranged in an annular groove in the middle of the inner arc wall of the heating barrel 1, a heat conducting ring plate 5 is arranged in an annular groove in the middle of the inner arc wall of the heating barrel 1, the inner arc wall of the heat conducting ring plate 5 is matched with the inner arc wall of the heating barrel 1, a preparation raw material of the monolaurate is fed into the heating barrel 1 through the feeding pipe 2, the electric heating wires 4 are electrified to convert electric energy into heat energy through the regulation and control of a single chip microcomputer 7, and the temperature of the monolaurate raw material in the heating barrel 1 can be increased under the heat conducting action of the heat conducting ring plate 5;

the stirring mechanism 6: including hollow stirring frame 61 and motor 62, hollow stirring frame 61 rotates through the bearing and connects in the inside center department of heating barrel 1, motor 62 sets up in the upper surface of heating barrel 1, the output shaft of motor 62 and the upper end fixed connection of hollow stirring frame 61, rabbling mechanism 6 still includes hollow cover 63 and air supply pipe 64, hollow cover 63 sets up in the inside roof of heating barrel 1, hollow stirring frame 61 rotates through the bearing and the commentaries on classics hole in hollow cover 63 bottom surface middle part and is connected, the breach of admitting air that hollow stirring frame 61 extrados upper end bilateral symmetry set up all is located the inside of hollow cover 63, be equipped with air supply pipe 64 in the air inlet of heating barrel 1 upper surface, the bottom of air supply pipe 64 is linked together with the air inlet of hollow cover 63 extrados, rabbling mechanism 6 still includes through pipe 65, through pipe 65 sets up respectively in the through hole that evenly seted up on hollow stirring frame 61, rabbling mechanism 6 still includes diaphragm 66, A first stirring frame 67, a flat gear 68 and a flat gear ring 69, wherein the horizontal plate 66 is fixedly sleeved at the upper end of the outer arc surface of the hollow stirring frame 61, bearing holes at the left end and the right end of the upper surface of the horizontal plate 66 are rotatably connected with the first stirring frame 67 through bearings, the flat gear 68 is arranged at the upper end of the first stirring frame 67, the flat gear ring 69 is arranged at the top end of the inner arc wall of the heating barrel 1, the two flat gears 68 are meshed with the flat gear ring 69 at the same time, personnel can also send external high-temperature gas medium into the hollow stirring frame 61 through the air supply pipe 64 and the hollow cover 63, so that the high-temperature gas medium exchanges heat with the glycerol monolaurate raw material from the center of the heating barrel 1 by means of the hollow stirring frame 61, and part of the glycerol monolaurate raw material can further increase the heat exchange contact area when flowing through the penetrating pipe 65, thereby improving the efficiency of heating work, when the motor 62 rotates to drive the hollow stirring frame 61 and the horizontal plate 66 to rotate through the regulation of the singlechip 7, under the influence of the meshing connection relationship between the flat gear 68 and the flat gear ring 69, the first stirring frame 67 can rotate while making circular motion around the output shaft of the motor 62, so that the raw material of the glycerol monolaurate is efficiently stirred, and the raw material of the glycerol monolaurate can be uniformly heated;

wherein: the upper surface of heating bucket 1 is equipped with singlechip 7, and external power supply is connected to the input electricity of singlechip 7, and the output of singlechip 7 is all connected to the input electricity of electric heating wire 4 and motor 62.

Wherein: the fixed cover of downside extension end department of hollow stirring frame 61 is equipped with awl fluted disc 8, awl fluted disc 8 is located heating barrel 1's outside downside, the interior arc wall lower extreme of heating barrel 1 is connected with second puddler 9 through bearing symmetry rotation, the outside extension end department that keeps away from of two second puddlers 9 all is equipped with bevel gear 10, two bevel gear 10 are connected with awl fluted disc 8 meshing simultaneously, hollow stirring frame 61 still can drive awl fluted disc 8 co-rotation when rotatory, influenced by bevel gear 10 and awl fluted disc 8 meshing connection relation, two second puddlers 9 can be rotatory thereupon and stir the monolaurate glyceride raw materials of heating barrel 1 bottom, ensure that all monolaurate raw materials inside heating barrel 1 can both be in the motion state and guarantee the homogeneity of being heated, impel monolaurate raw materials rapid heating up and accomplish heating work.

Wherein: the inside bottom surface of heating bucket 1 is equipped with temperature sensor 11, and singlechip 7's input is connected to temperature sensor 11's output electricity, can carry out real-time supervision to the environmental stability of heating bucket 1 inside.

Wherein: the symmetry is equipped with two landing legs 12 in the extrados middle part of heating bucket 1, and the bottom of landing leg 12 all with end brace 13 fixed connection, can provide the supporting role for heating bucket 1, ensures operational environment's stability.

The utility model provides a pair of a firing equipment for preparation of monolaurin glyceride's theory of operation as follows: the raw material for preparing the monolaurate is fed into the heating barrel 1 through the feeding pipe 2, the electrical heating wire 4 is electrified to convert the electrical energy into heat energy under the regulation and control of the singlechip 7, the monolaurate raw material in the heating barrel 1 can be heated under the heat conduction action of the heat conduction annular plate 5, personnel can also feed external high-temperature gas medium into the hollow stirring frame 61 through the air supply pipe 64 and the hollow cover 63, so that the high-temperature gas medium exchanges heat with the monolaurate raw material from the center of the heating barrel 1 by means of the hollow stirring frame 61, part of the monolaurate raw material can further improve the heat exchange contact area when flowing through the through pipe 65, thereby improving the efficiency of heating work, the temperature sensor 11 can monitor the environmental stability in the heating barrel 1 in real time, in addition, through the regulation and control of the singlechip 7, when the motor 62 operates to drive the hollow stirring frame 61 and the transverse plate 66 to rotate, influenced by the meshing connection relationship of the flat gear 68 and the flat gear ring 69, the first stirring frame 67 can rotate while making circular motion around the output shaft of the motor 62, the monolaurin raw material is efficiently stirred, so that the monolaurin raw material can be uniformly heated, the hollow stirring frame 61 can drive the conical fluted disc 8 to rotate together when rotating, the hollow stirring frame is influenced by the meshing connection relationship of the conical gear 10 and the conical fluted disc 8, the two second stirring rods 9 can rotate along with the first stirring rods to stir the monolaurin raw material at the bottom of the heating barrel 1, all monolaurin raw materials in the heating barrel 1 can be in a motion state to ensure the heating uniformity, and the monolaurin raw material is enabled to be rapidly heated to complete the heating work.

It is worth noting that the single chip microcomputer 7 disclosed in the above embodiments selects an intel-8051 single chip microcomputer, the electric heating wire 4 selects a BGH nickel-chromium heating wire, the motor 62 selects a 5IK150RGU-CF speed regulation motor, the temperature sensor 11 selects a PT100 platinum resistance temperature sensor, and the single chip microcomputer 7 controls the electric heating wire 4, the motor 62 and the temperature sensor 11 to work by a method commonly used in the prior art.

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 (7)

1. A heating device for preparing glycerol monolaurate is characterized in that: comprises a heating barrel (1) and a stirring mechanism (6);

heating barrel (1): a feeding pipe (2) is arranged at a feeding port at the upper end of the outer arc surface of the heating barrel (1), a discharging pipe (3) is arranged at a discharging port at the lower end of the outer arc surface of the heating barrel (1), electric heating wires (4) which are uniformly distributed are arranged in an annular groove in the middle of the inner arc wall of the heating barrel (1), a heat-conducting annular plate (5) is arranged in the annular groove in the middle of the inner arc wall of the heating barrel (1), and the inner arc wall of the heat-conducting annular plate (5) is matched with the inner arc wall of the heating barrel (1);

stirring mechanism (6): the stirring device comprises a hollow stirring frame (61) and a motor (62), wherein the hollow stirring frame (61) is rotatably connected to the center of the interior of a heating barrel (1) through a bearing, the motor (62) is arranged on the upper surface of the heating barrel (1), and an output shaft of the motor (62) is fixedly connected with the upper end of the hollow stirring frame (61);

wherein: the upper surface of heating bucket (1) is equipped with singlechip (7), and external power source is connected to the input electricity of singlechip (7), and the output of singlechip (7) is all connected to the input electricity of electric heating wire (4) and motor (62).

2. A heating apparatus for the preparation of glycerol monolaurate according to claim 1, wherein: rabbling mechanism (6) still include hollow cover (63) and air supply pipe (64), hollow cover (63) set up in the inside roof of heating bucket (1), and hollow stirring frame (61) are connected through the rotation hole rotation at bearing and hollow cover (63) bottom surface middle part, and the breach of admitting air that hollow stirring frame (61) extrados upper end bilateral symmetry set up all is located the inside of hollow cover (63), is equipped with air supply pipe (64) in the air inlet of heating bucket (1) upper surface, and the bottom of air supply pipe (64) is linked together with the air inlet of hollow cover (63) extrados.

3. A heating apparatus for the preparation of glycerol monolaurate according to claim 1, wherein: the stirring mechanism (6) further comprises a through pipe (65), and the through pipe (65) is respectively arranged in through holes uniformly formed in the hollow stirring frame (61).

4. A heating apparatus for the preparation of glycerol monolaurate according to claim 1, wherein: rabbling mechanism (6) still include diaphragm (66), first stirring frame (67), spur gear (68) and straight toothed ring (69), the extrados upper end of hollow stirring frame (61) is located to diaphragm (66) fixed cover, and all be connected with first stirring frame (67) through the bearing rotation in the bearing hole at both ends about diaphragm (66) upper surface, and the upper end of first stirring frame (67) all is equipped with spur gear (68), and straight toothed ring (69) set up in the inner arc wall top of heating bucket (1), and two spur gears (68) are connected with the meshing of spur gear (69) simultaneously.

5. A heating apparatus for the preparation of glycerol monolaurate according to claim 1, wherein: the fixed cover of downside extension end department of hollow stirring frame (61) is equipped with awl fluted disc (8), and awl fluted disc (8) are located the outside downside of heating bucket (1), and the inner arc wall lower extreme of heating bucket (1) is connected with second puddler (9) through bearing symmetry rotation, and the back of the body outside extension end department of two second puddlers (9) all is equipped with bevel gear (10), and two bevel gear (10) are connected with awl fluted disc (8) meshing simultaneously.

6. A heating apparatus for the preparation of glycerol monolaurate according to claim 1, wherein: the inside bottom surface of heating bucket (1) is equipped with temperature sensor (11), and the input of singlechip (7) is connected to the output electricity of temperature sensor (11).

7. A heating apparatus for the preparation of glycerol monolaurate according to claim 1, wherein: two supporting legs (12) are symmetrically arranged in the middle of the outer arc surface of the heating barrel (1), and the bottom ends of the supporting legs (12) are fixedly connected with a bottom supporting plate (13).

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