CN213995882U - Resin material preparation reation kettle - Google Patents

Abstract

The utility model discloses a resin material preparation reaction kettle, in particular to the technical field of resin processing, which comprises an outer support kettle and an inner reaction kettle, wherein the inner reaction kettle is fixedly sleeved in the outer support kettle, a motor is fixedly arranged at the center of the top of the outer support kettle through a bolt, a rotating rod is welded at the bottom of the output end of the motor, and the bottom end of the rotating rod penetrates through the outer support kettle and is rotatably sleeved in the inner reaction kettle; the utility model discloses a resin material of heater in can being to reation kettle heats and dissolves, the hot-water line can be to injecting hot water in the ring basin, the hot water temperature in the ring basin can rise along with the rising of temperature in the reation kettle, hot water is still sustainable when needing the ejection of compact and supplies heat to the reation kettle in, the resin in making the cooling can't be with the hot reation kettle inner wall of heat transfer, the resin can't solidify just can not glue on the reation kettle inner wall, resin can not appear in the messenger reation kettle and remain, reation kettle's practicality has been improved.

Description

Resin material preparation reation kettle

Technical Field

The utility model relates to a resin processing technology field, more specifically say, the utility model relates to a resin material preparation reation kettle.

Background

The resin is various, wherein the synthesis of chemical resin provides much convenience for the processing of the resin, and the resin reaction kettle enables the resin reaction to be more thorough. The reaction kettle is a container for physical or chemical reaction, and the heating, evaporation, cooling and low-speed mixing functions required by the process are realized by the structural design and parameter configuration of the container. The resin reaction kettle can better prepare resin materials.

Resin has certain viscosity, resin in the cooling can be with heat transfer to the reation kettle inner wall, if reation kettle's inner wall temperature is not high this moment, thereby the resin just can solidify and glue on the reation kettle inner wall, it remains to have resin in making reation kettle, process after the influence, and the puddler bottom in the current reation kettle is most unsettled, do not support, the puddler can produce wearing and tearing with reation kettle after long-time the use, thereby make reation kettle produce the vibration, the life of puddler has also been shortened, so can't satisfy prior art needs.

The above information disclosed in this background section is only for enhancement of understanding of the background of the disclosure and therefore it may contain information that does not constitute prior art that is already known to a person of ordinary skill in the art.

SUMMERY OF THE UTILITY MODEL

In order to overcome the above-mentioned defect of prior art, the embodiment of the utility model provides a resin material preparation reation kettle, the utility model aims to solve the technical problem that: through the setting of ring basin, hot-water line, cold water pipe, drain pipe and support loop bar, solved and can't supply heat to the reation kettle inner wall and prevent that the resin from gluing on the inner wall and can't support the problem that the puddler bottom supported.

In order to achieve the above object, the utility model provides a following technical scheme: a resin material preparation reaction kettle comprises an outer supporting kettle and an inner reaction kettle, wherein the inner supporting kettle is fixedly sleeved with the inner reaction kettle, a motor is fixedly installed at the center of the top of the outer supporting kettle through a bolt, a rotating rod is welded at the bottom of the output end of the motor, the bottom of the rotating rod penetrates through the outer supporting kettle and is rotatably sleeved inside the inner reaction kettle, four stirring blades with gradually reduced diameter are sequentially and fixedly sleeved on the outer wall of the rotating rod from top to bottom, the four stirring blades are all positioned inside the inner reaction kettle, a supporting sleeve rod is welded at the bottom of the inner wall of the inner reaction kettle, the bottom of the outer wall of the rotating rod is rotatably sleeved inside the supporting sleeve rod, a circular water tank is arranged in the inner reaction kettle, a hot water pipe and a cold water pipe which are symmetrically distributed are fixedly sleeved at the top of the inner wall of the circular water tank, a drain pipe is fixedly sleeved at the bottom of the inner wall of the inner reaction kettle, a heater and a high temperature resistant temperature sensor are fixedly installed at the bottom of the inner wall of the inner reaction kettle through a bolt, the fixed cover has the discharging pipe between cauldron and the reaction bottom outside supporting, the fixed cover has the filling tube between cauldron and the reaction top outside supporting, it has thermal-insulated box to support outer cauldron outer wall top bonding, there is the singlechip through bolt fixed mounting in the thermal-insulated box, it has touch display screen through bolt fixed mounting to support outer cauldron outer wall one side.

In a preferred embodiment, electromagnetic valves are fixedly installed in the hot water pipe, the cold water pipe, the drain pipe and the discharge pipe.

In a preferred embodiment, the signal output end of the high temperature resistant temperature sensor is electrically connected with the signal input end of the single chip microcomputer.

In a preferred embodiment, the touch display screen is in bidirectional signal connection with the single chip microcomputer, and the heater, the motor and the electromagnetic valve are all electrically connected with the single chip microcomputer.

In a preferred embodiment, the single chip microcomputer is electrically connected with an external power supply, and the single chip microcomputer is of a model of a wildfire STM32 development board.

In a preferred embodiment, one end of each of the hot water pipe, the cold water pipe and the drain pipe penetrates through the support outer kettle.

In a preferred embodiment, the heater and the refractory temperature sensor are both located above the tapping pipe.

In a preferred embodiment, the high temperature resistant temperature sensor is located directly below the stirring blade.

The utility model discloses a technological effect and advantage:

1. the utility model discloses a resin material of heater in can being to reation kettle heats and dissolves, the hot-water line can be to injecting hot water in the ring basin, the hot water temperature in the ring basin can rise along with the rising of temperature in the reation kettle, hot water is still sustainable when needing the ejection of compact and supplies heat to the reation kettle in, the resin in making the cooling can't be with the hot reation kettle inner wall of heat transfer, the resin can't solidify just can not glue on the reation kettle inner wall, resin can not appear in the messenger reation kettle and remain, reation kettle's practicality has been improved.

2. The utility model discloses a great sustainable heat supply in to reation kettle of hot water specific heat capacity, thereby the heat duration of heater to the resin has been shortened, the loss of electric power resource has been reduced, still can discharge through the hot water of the high temperature of drain pipe in with the ring basin when needs carry out whole cooling to reation kettle, use as factory's boiler water or ground heating water, can inject ordinary hot water into the ring basin through the hot-water line, ordinary hot water is lower than the temperature in the reation kettle, can cool off reation kettle, then discharge ordinary hot water and cool off reation kettle through the cold water pipe, adopt cascaded cooling on the whole, can effectively prevent that too big difference in temperature pressure from causing the damage to reation kettle, the discharged water still can make other usefulness in addition, suitable a large amount of popularization.

3. The utility model discloses a resin of the different degree of depth in four stirring vane can be to reation kettle stirs, improve the mixture and the reaction rate of resin raw materials, high temperature resistant temperature sensor still can be with temperature information transfer for the singlechip in the reation kettle, the singlechip is handled information according to internal programming, and give touch display screen with temperature information transfer, the support loop bar can support and spacing to the bull stick bottom, reduce the wearing and tearing of reation kettle and puddler support, the singlechip can carry out automatic control to the reation kettle inner part, make heating temperature steerable, inside compounding misce bene, the efficiency of reaction and stirring has been improved.

Drawings

Fig. 1 is a front sectional view of the overall structure of the present invention.

Fig. 2 is an enlarged view of the structure a in fig. 1 of the present invention.

Fig. 3 is an enlarged view of the structure B in fig. 1 according to the present invention.

Fig. 4 is an elevation view of the overall structure of the present invention.

Fig. 5 is a front view of the support rod of the present invention.

Fig. 6 is a circuit diagram of the overall structure of the present invention.

The reference signs are: 1. supporting the outer kettle; 11. an inner reaction kettle; 12. a feed tube; 13. a discharge pipe; 14. a heater; 15. a high temperature resistant temperature sensor; 16. a heat insulation box; 17. a single chip microcomputer; 18. a touch display screen; 2. a motor; 21. a rotating rod; 22. a stirring blade; 23. supporting the loop bar; 3. a circular water tank; 31. a hot water pipe; 32. a cold water pipe; 33. a drain pipe; 34. an electromagnetic valve.

Detailed Description

Example embodiments will now be described more fully with reference to the accompanying drawings. Example embodiments may, however, be embodied in many different forms and should not be construed as limited to the examples set forth herein; rather, these example embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of example embodiments to those skilled in the art. The drawings are merely schematic illustrations of the present disclosure and are not necessarily drawn to scale. The same reference numerals in the drawings denote the same or similar parts, and thus their repetitive description will be omitted.

Furthermore, the described features, structures, or characteristics may be combined in any suitable manner in one or more example embodiments. In the following description, numerous specific details are provided to give a thorough understanding of example embodiments of the disclosure. One skilled in the relevant art will recognize, however, that the subject matter of the present disclosure can be practiced without one or more of the specific details, or with other methods, components, steps, and so forth. In other instances, well-known structures, methods, implementations, or operations are not shown or described in detail to avoid obscuring aspects of the disclosure.

Referring to fig. 1-6, the utility model provides a resin material preparation reaction kettle, which comprises an outer support kettle 1 and an inner reaction kettle 11, wherein the outer support kettle 1 is internally fixed with the inner reaction kettle 11, the outer support kettle 1 and the inner reaction kettle 11 form the reaction kettle, a heat insulation layer is arranged outside the outer support kettle 1, the inner reaction kettle 11 is made of metal material for facilitating heat conduction, a motor 2 is fixedly arranged at the center of the top of the outer support kettle 1 through a bolt for facilitating fixation of the motor 2, the motor 2 is connected with a speed reducer, the speed reducer is also controlled by a single chip microcomputer 17, the speed reducer is mostly used in cooperation with the motor 2, redundant description is omitted, a rotating rod 21 is welded at the bottom of the output end of the motor 2 for driving the rotating rod 21 to rotate, the bottom end of the rotating rod 21 penetrates through the outer support kettle 1 to be rotatably sleeved in the inner reaction kettle 11, four stirring blades 22 with gradually reduced diameter are sequentially fixed on the outer wall of the rotating rod 21 from top to bottom, as shown in fig. 1, four stirring blades 22 can mix and stir resin raw materials of different depths, the four stirring blades 22 are all located inside the inner reaction kettle 11, a support sleeve rod 23 is welded at the bottom of the inner wall of the inner reaction kettle 11, the bottom of the outer wall of the rotating rod 21 is rotatably sleeved in the support sleeve rod 23, the support sleeve rod 23 can support and limit the bottom end of the rotating rod 21 to prevent vibration caused by suspension of the rotating rod 21, a circular water tank 3 is arranged in the inner reaction kettle 11, the circular water tank 3 is in a circular shape to facilitate heat supply to the inner reaction kettle 11, a hot water pipe 31 and a cold water pipe 32 which are symmetrically distributed are fixedly sleeved at the top of the inner wall of the circular water tank 3, the hot water pipe 31 is connected with hot water of 60-80 degrees, the cold water pipe 32 is connected with normal temperature water, a drain pipe 33 is fixedly sleeved at the bottom of the inner wall of the circular water tank 3, the drain pipe 33 can drain water in the circular water tank 3 for other purposes, a heater 14 and a high temperature resistant temperature sensor 15 are fixedly arranged at the bottom of the inner wall of the inner reaction kettle 11 through bolts, the heater 14 can heat resin raw materials in the inner reaction kettle 11, the high temperature resistant temperature sensor 15 can detect the temperature of the resin, a discharging pipe 13 is fixedly sleeved between the supporting outer kettle 1 and the bottom of the inner reaction kettle 11, the discharging pipe 13 is convenient for the reaction kettle to discharge the resin raw materials, a charging pipe 12 is fixedly sleeved between the supporting outer kettle 1 and the top of the inner reaction kettle 11, the charging pipe 12 is convenient for adding the resin raw materials into the reaction kettle, a heat insulation box 16 is bonded at the top of the outer wall of the supporting outer kettle 1, a singlechip 17 is fixedly arranged in the heat insulation box 16 through bolts, the singlechip 17 can be protected and fixed by the heat insulation box 16, a touch display screen 18 is fixedly arranged at one side of the outer wall of the supporting outer kettle 1 through bolts, the heat insulation layer, the touch display screen 18 is convenient for people to control the singlechip 17 and observe the temperature in the reaction kettle.

Electromagnetic valves 34 are fixedly installed in the hot water pipe 31, the cold water pipe 32, the water discharge pipe 33 and the water discharge pipe 13, the electromagnetic valves 34 can control the smoothness and the closure of a plurality of water pipes, the signal output end of the high temperature resistant temperature sensor 15 is electrically connected with the signal input end of the singlechip 17, so that the temperature information can be conveniently transmitted to the singlechip 17, the touch display screen 18 is in signal bidirectional connection with the singlechip 17, the touch display screen 18 can control the singlechip 17, the singlechip 17 can display the temperature information on the touch display screen 18, the heater 14, the motor 2 and the electromagnetic valves 34 are all electrically connected with the singlechip 17, the singlechip 17 can control the opening and closing of the heater 14, the motor 2 and the electromagnetic valves 34, the singlechip 17 is electrically connected with an external power supply, the model of the singlechip 17 is an STM32 development board, one ends of the hot water pipe 31, the cold water pipe 32 and the water discharge pipe 33 penetrate through and support the outer kettle 1, the circulation of the water of being convenient for, heater 14 and high temperature resistant temperature sensor 15 all are located discharging pipe 13 top, and high temperature resistant temperature sensor 15 is located stirring vane 22 under.

The utility model discloses the theory of operation: when in use, resin raw materials are firstly added into the reaction inner kettle 11 through the feeding pipe 12, the heater 12 can heat and dissolve resin materials in the reaction inner kettle 11, the motor 2 can drive the rotating rod 21 and the stirring blades 22 to rotate after operation, the four stirring blades 22 can stir the resin raw materials with different depths in the reaction kettle, the resin raw materials after stirring and reaction can also be discharged through the discharging pipe 13, the hot water pipe 31 can inject hot water into the circular water tank 3, the temperature of the hot water in the circular water tank 3 can be increased along with the increase of the temperature in the reaction kettle, the hot water can continuously supply heat to the reaction inner kettle 11 when discharging is needed, the cooled resin can not transfer heat to the inner wall of the hot reaction kettle, the resin can not be solidified and can not be adhered to the inner wall of the reaction kettle, sustainable resin residue can not occur in the reaction kettle, and the hot water can supply heat to the reaction kettle with larger specific heat capacity, when the reaction kettle needs to be integrally cooled, hot water with overhigh temperature in the circular water tank 3 can be discharged through the water discharge pipe 33 to be used as factory boiler water or floor heating water, ordinary hot water can be injected into the circular water tank 3 through the hot water pipe 31, the ordinary hot water has lower temperature than the temperature in the reaction kettle and cools the reaction kettle, then, the ordinary hot water is discharged, cold water is injected into the circular water tank 3 through the cold water pipe 32, the cold water can cool the reaction kettle, the high temperature resistant temperature sensor 15 can also transmit the temperature information in the reaction kettle 11 to the singlechip 17, the singlechip 17 processes the information according to internal programming, and give temperature information to touch display screen 18, support set pole 23 and can support and spacing bull stick 21 bottom, and singlechip 17 can carry out automatic control to the reation kettle inner part according to the programming, and touch display screen 18 is convenient for people to control singlechip 17 and observe the temperature in the reation kettle.

The points to be finally explained are: first, in the description of the present application, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" should be understood broadly, and may be a mechanical connection or an electrical connection, or a communication between two elements, and may be a direct connection, and "upper," "lower," "left," and "right" are only used to indicate a relative positional relationship, and when the absolute position of the object to be described is changed, the relative positional relationship may be changed;

secondly, the method comprises the following steps: in the drawings of the disclosed embodiments of the present invention, only the structures related to the disclosed embodiments are referred to, and other structures can refer to the common design, and under the condition of no conflict, the same embodiment and different embodiments of the present invention can be combined with each other;

and finally: the above description is only for the preferred embodiment of the present invention and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides a resin materials preparation reation kettle, is including supporting outer cauldron (1) and reaction inner kettle (11), its characterized in that: the reaction inner kettle (11) is fixedly sleeved in the outer support kettle (1), a motor (2) is fixedly installed at the center of the top of the outer support kettle (1) through a bolt, a rotating rod (21) is welded at the bottom of the output end of the motor (2), the bottom of the rotating rod (21) penetrates through the outer support kettle (1) and is rotatably sleeved in the reaction inner kettle (11), four stirring blades (22) with gradually reduced diameter are fixedly sleeved on the outer wall of the rotating rod (21) from top to bottom in sequence, the four stirring blades (22) are all positioned in the reaction inner kettle (11), a support sleeve rod (23) is welded at the bottom of the inner wall of the reaction inner kettle (11), the outer wall of the rotating rod (21) is rotatably sleeved in the support sleeve rod (23), a circular water tank (3) is arranged in the reaction inner kettle (11), a hot water pipe (31) and a cold water pipe (32) which are symmetrically distributed are fixed at the top of the inner wall of the circular water tank (3), fixed cover in ring basin (3) inner wall bottom has drain pipe (33), there are heater (14) and high temperature resistant temperature sensor (15) reaction inner wall (11) inner wall bottom through bolt fixed mounting, it has discharging pipe (13) to support fixed cover between outer cauldron (1) and reaction inner cauldron (11) bottom, it has filling tube (12) to support fixed cover between outer cauldron (1) and reaction inner cauldron (11) top, it has thermal-insulated box (16) to support outer cauldron (1) outer wall top bonding, there is singlechip (17) through bolt fixed mounting in thermal-insulated box (16), it has touch display screen (18) through bolt fixed mounting to support outer cauldron (1) outer wall one side.

2. The resin material preparation reaction vessel according to claim 1, wherein: solenoid valves (34) are fixedly mounted in the hot water pipe (31), the cold water pipe (32), the drain pipe (33) and the discharge pipe (13).

3. The resin material preparation reaction tank as set forth in claim 2, wherein: and the signal output end of the high-temperature-resistant temperature sensor (15) is electrically connected with the signal input end of the singlechip (17).

4. The resin material preparation reaction tank as set forth in claim 3, wherein: the touch display screen (18) is in bidirectional connection with the single chip microcomputer (17) through signals, and the heater (14), the motor (2) and the electromagnetic valve (34) are all electrically connected with the single chip microcomputer (17).

5. The resin material preparation reaction tank as set forth in claim 4, wherein: singlechip (17) and external power source electric connection, the model of singlechip (17) is wildfire STM32 development board.

6. The resin material preparation reaction vessel according to claim 1, wherein: one ends of the hot water pipe (31), the cold water pipe (32) and the drain pipe (33) penetrate through the outer kettle (1).

7. The resin material preparation reaction vessel according to claim 1, wherein: the heater (14) and the high-temperature-resistant temperature sensor (15) are both positioned above the discharge pipe (13).

8. The resin material preparation reaction vessel according to claim 1, wherein: the high-temperature-resistant temperature sensor (15) is positioned under the stirring blade (22).

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