Reation kettle convenient to feeding
Technical Field
The utility model relates to the field of chemical raw material processing, in particular to a reaction kettle convenient for feeding.
Background
The reaction kettle is widely understood to be a container with physical or chemical reaction, and the heating, evaporating and cooling functions and the low-speed and high-speed mixing functions required by the process are realized through structural design and parameter configuration of the container.
The existing reaction kettle chemical raw materials generally adopt a conveyer belt type feeding mechanism when being fed, the chemical raw materials are conveyed towards the feeding port of the reaction kettle, but when conveyed to the feeding port of the reaction kettle through a conveying belt, the conveyed solid reactant is easy to contact with a liquid reactant which is being added through a pipeline at an open feeding hopper, and then the fixed reactant and the liquid reactant are exposed in the air to be subjected to chemical reaction in advance, so that the problems are improved.
Disclosure of Invention
The utility model aims to solve the problems of the prior art, and provides a reaction kettle convenient for feeding.
In order to achieve the above purpose, the present utility model adopts the following technical scheme:
a reaction kettle convenient for feeding, comprising; the stirring device is positioned between the liquid feeding device and the solid feeding device, the solid feeding device is positioned at the left side of the stirring device, and the liquid feeding device is positioned at the right side of the stirring device;
the stirring device comprises: the stirring motor is fixed on the motor seat, the motor seat is positioned right above the reaction kettle cylinder and is of an integrated structure with the reaction kettle cylinder, and the discharge port is positioned right below the reaction kettle cylinder;
the liquid feeding device comprises a liquid feeding pipe, a liquid storage tank, a liquid material bin and a water pump, wherein the upper end of the liquid feeding pipe is connected with the reaction kettle cylinder body, the lower end of the liquid feeding pipe is connected with the water pump, and the water pump stretches into the bottom of the liquid material bin;
the solid feeding device comprises a conveying pipe, a cone hopper and a conveying motor, wherein the conveying pipe is obliquely arranged, the upper end of the conveying pipe is connected with the upper end of the reaction kettle cylinder body, the lower end of the conveying pipe is connected with the lower end of the cone hopper, and the conveying motor is fixed at the left lower end of the cone hopper.
Further, agitating unit still includes agitator motor reduction gear, U type stirring rake connecting rod, goes up stirring leaf, lower stirring leaf, U type stirring rake and rotation axis, the agitator motor reduction gear is fixed in inside the motor cabinet, the inner and the rotation axis fixed connection of U type stirring rake connecting rod, outer end and U type stirring rake fixed connection, go up the stirring leaf and connect the upper portion at the rotation axis, the lower stirring leaf is connected in the lower part of rotation axis, the symmetry point position and the rotation axis lower part of U type stirring rake U type groove are connected.
Further, the upper end of the stirring motor speed reducer is rotationally connected with the output end of the stirring motor, and the lower end of the stirring motor speed reducer is rotationally connected with the upper end of the rotating shaft.
Further, the solid feeding device further comprises a speed reducer, a motor shaft, an auger rotating shaft, a coupler, auger blades and a material conveying shaft, wherein the speed reducer is positioned between the conveying motor and the material conveying shaft, the motor shaft penetrates through the speed reducer, the output end of the motor shaft is connected with the auger rotating shaft through the coupler, and the auger blades are spirally fixed on the material conveying shaft.
Further, a valve is connected to the discharge port.
Further, the two ends of the material conveying shaft are rotatably connected to the two ends of the conveying pipe.
Further, the solid feeding device further comprises a conveying pipe supporting rod, the upper end of the conveying pipe supporting rod is connected with the lower portion of the conveying pipe, the lower end of the conveying pipe supporting rod is connected to the base of the round table, and stability of the solid feeding device is improved.
Compared with the prior art, the utility model has the following beneficial effects:
(1) In the utility model, the solid reactant and the liquid reactant are respectively conveyed into the reaction kettle cylinder body through the solid feeding device and the liquid feeding device, so that the solid reactant and the liquid reactant are prevented from chemical reaction in the exposed air in advance, and impurities are generated to pollute the environment.
(2) In the utility model, the liquid reactant is pumped into the reaction kettle through the water pump and the liquid feeding pipe, so that the direct contact of the liquid reactant and air is avoided, raw materials are polluted, and a large amount of manpower is saved.
(3) According to the utility model, a worker only needs to pour the solid material into the cone hopper, then the conveying motor is started, the conveying motor of the solid feeding device drives the auger blade on the material conveying shaft to automatically auger the solid material into the reaction kettle cylinder, and the feeding process is free from human participation, so that a large amount of manpower is saved.
Drawings
FIG. 1 is a schematic diagram of the whole structure of a reaction kettle convenient for feeding;
FIG. 2 is a schematic diagram of the internal structure of a tank of a reaction kettle, which is convenient for feeding;
fig. 3 is a schematic diagram of the internal structure of a conveying pipe of a reaction kettle convenient for feeding.
In the figure: 1. a stirring motor; 2. a reaction kettle tank body; 3. a liquid feed tube; 4. a liquid storage tank; 5. a liquid material bin; 6. a water pump; 7. a delivery tube; 701. a speed reducer; 702. a nut; 703. a bolt; 704. a motor shaft; 705. auger blades; 706. a material conveying shaft; 8. a cone hopper; 9. a conveying motor; 10. a valve; 11. a discharge pipe; 12. a motor base; 13. a stirring motor reducer; 14. a U-shaped stirring paddle connecting rod; 15. stirring the leaves; 16. lower stirring blades; 17. u-shaped stirring paddles; 18. a rotation shaft; 19. and a conveying pipe supporting rod.
Detailed Description
The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.
In the description of the present utility model, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present utility model and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.
As shown in figures 1-2, the barrel-shaped storage and packaging device of the multi-shape tea production line comprises a stirring device, a liquid feeding device and a solid feeding device, wherein the stirring device is positioned between the liquid feeding device and the solid feeding device, the solid feeding device is positioned on the left side of the stirring device, and the liquid feeding device is positioned on the right side of the stirring device.
The stirring device comprises: stirring motor 1, reation kettle cylinder body 2, valve 10, discharge gate 11, motor cabinet 12, stirring motor 1 fixes on motor cabinet 12, and motor cabinet 12 is located reation kettle cylinder body 2 directly over, is an organic whole structure with reation kettle cylinder body 2, and discharge gate 11 is located reation kettle cylinder body 2 under.
The liquid feeding device comprises a liquid feeding pipe 3, a liquid storage tank 4, a liquid material bin 5 and a water pump 6, wherein the upper end of the liquid feeding pipe 3 is connected with the reaction kettle cylinder body 2, the lower end of the liquid feeding pipe is connected with the water pump 6, the water pump 6 stretches into the bottom of the liquid material bin 5, and when the liquid feeding device is used, liquid materials in the liquid material bin 5 are pumped into the reaction kettle cylinder body 2.
Referring to fig. 3, the solid feeding device includes a conveying pipe 7, a cone hopper 8, and a conveying motor 9, wherein the conveying pipe 7 is inclined and disposed at an angle of 30 ° to the horizontal direction, the upper end of the conveying pipe is connected with the upper end of the reaction kettle cylinder 2, the lower end of the conveying pipe is connected with the lower end of the cone hopper 8, and the conveying motor 9 is fixed at the left lower end of the cone hopper 8.
In the utility model, the stirring device further comprises a stirring motor reducer 13, a U-shaped stirring paddle connecting rod 14, an upper stirring blade 15, a lower stirring blade 16, a U-shaped stirring paddle 17 and a rotating shaft 18, wherein the stirring motor reducer 13 is fixed inside the motor base 12, the inner end of the U-shaped stirring paddle connecting rod 14 is fixedly connected with the rotating shaft 18, the outer end of the U-shaped stirring paddle connecting rod is fixedly connected with the U-shaped stirring paddle 17, the upper stirring blade 15 is connected to the upper part of the rotating shaft 18, the lower stirring blade 16 is connected to the lower part of the rotating shaft 18, and the symmetrical point position of a U-shaped groove of the U-shaped stirring paddle 17 is connected with the lower part of the rotating shaft 18.
In the utility model, the upper end of a stirring motor reducer 13 is rotationally connected with the output end of a stirring motor 1, the lower end of the stirring motor reducer 13 is rotationally connected with the upper end of a rotating shaft 18, and the rotating shaft 18 drives a U-shaped stirring paddle 17 to rotate; the solid feeding device further comprises a speed reducer 701, a motor shaft 702, an auger rotating shaft 703, a coupler 704, auger blades 705 and a material conveying shaft 706, wherein the speed reducer 701 is positioned between the conveying motor 9 and the material conveying shaft 706, the motor shaft 702 penetrates through the speed reducer 701, the output end of the motor shaft 702 is connected with the auger rotating shaft 703 through the coupler 704, and the auger blades 705 are spirally fixed on the material conveying shaft 706.
In the utility model, a valve 10 is connected to a discharge port 11, and the valve 10 can control the flow rate of the discharge port 11; the material conveying shaft 706 is fixed inside the conveying pipeline 7, so that the direct contact between the solid material and the outside air is avoided in the conveying process, and the purity of the material is ensured; the solid feeding device further comprises a conveying pipe supporting rod 13, the upper end of the conveying pipe supporting rod 13 is connected with the lower portion of the conveying pipe 7, the lower end of the conveying pipe supporting rod 13 is fixedly connected to the base of the round table, and stability of the solid feeding device is improved.
Working principle: when the stirring device is used, a worker manually conveys solid materials into the cone hopper 8, then the conveying motor 9 is turned on, the conveying motor 9 drives the material conveying shaft 706 in the conveying pipe 7 to rotate, the solid materials are conveyed into the reaction kettle cylinder 2, when the liquid materials are required to be added, the worker fills the liquid materials into the liquid material bin 6, then the water pump 6 is turned on, the water pump 6 automatically pumps the liquid materials into the reaction kettle cylinder 2, the direct contact of the materials with external air is avoided in the whole conveying process of the materials, the purity of reactants is ensured, when the feeding is completed, the conveying motor 9 and the water pump 6 are turned off, the stirring motor 1 is turned on, the stirring motor 1 drives the rotating shaft 18 to rotate, so that the upper stirring blade 15, the lower stirring blade 16 and the U-shaped stirring blade 17 connected to the rotation shaft 18 in the reaction kettle cylinder 2 are driven to synchronously rotate at a high speed, the materials added into the reaction kettle cylinder 2 are fully stirred and mixed, after the stirring is completed, the stirring motor 1 is turned off, the valve 10 is turned on after the stirring motor 1 is stopped completely, the outflow speed of the discharging pipe 11 is controlled by the valve 10, and the mixed materials are discharged out of the reaction kettle 2 through the discharging pipe 11.
The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.