Can realize compounding device of many multi-component multistep many conditions
Technical Field
The utility model belongs to the field of mixing equipment, and particularly relates to a mixing device capable of realizing multiple components, multiple steps and multiple conditions.
Background
In the daily production process in fields such as chemical industry, food, often can involve compounding stirring process, this process carries out abundant stirring with various kinds of raw materials through the compounding device and mixes to obtain the liquid material of ideal state. At present, a mixing device frequently adopted in the market is a stirring tank, the device realizes the stirring function by arranging a single tank body and a stirring mechanism, but when the multi-step and multi-component stirring working conditions under different conditions are met, the stirring tank cannot effectively realize the function because the structure and the function are single; in addition, as the tank body of the stirring tank is generally made of stainless steel, the adhesion rate of the mixed liquid material on the surface of the tank body is high, and the adhered liquid material can be removed only by the cleaning solution, so that the cost is wasted; and finally, when various raw materials are mixed and then crystals appear, the stirring tank cannot be effectively removed, and the crystals in the mixed materials have adverse effects on the back thread process.
SUMMERY OF THE UTILITY MODEL
For solving the shortcoming and the not enough of prior art, provide a compounding device that can realize multicomponent multistep many conditions to can solve present compounding device and can't realize that the substep under the different conditions is multicomponent to be stirred, the high problem of the cost waste that causes of mixed material adhesion rate, can't effectively get rid of the crystalline solid.
The mixing device capable of realizing multiple components, multiple steps and multiple conditions comprises a first cylindrical mixing bin and a second cylindrical mixing bin, wherein a first rack is fixed on the lower surface of the first cylindrical mixing bin, a second rack is fixed on the lower surface of the second cylindrical mixing bin, the first cylindrical mixing bin and the second cylindrical mixing bin are connected through a sleeve, the sleeve is provided with a mounting screw to ensure the stability of connection, the height of the first rack is higher than that of the second rack to realize that mixed materials enter the second cylindrical mixing bin from the first cylindrical mixing bin under the action of self gravity, a first sealing cover is arranged at the top of the first cylindrical mixing bin, a liquid inlet pipe is arranged on the first sealing cover, a cleaning liquid outlet pipe is arranged at the bottom of the first cylindrical mixing bin, and a valve is arranged at the discharge end of the first cylindrical mixing bin, the utility model discloses a temperature regulation device for the blender mixer, including the cylindrical blending bunker of second, the sealed lid of second is provided with the sealed lid of second in order to control the switching of first cylindrical blending bunker, the sealed lid of second is embedded to have the motor, the motor drives the axis of rotation and stirring vane is rotatory, be provided with the blast pipe on the sealed lid of second, all be provided with the cavity in the lateral wall of first cylindrical blending bunker, the cylindrical blending bunker of second, the cavity is provided with two circulation liquid pipes to the business turn over through the circulation liquid realizes adjusting the temperature of first cylindrical blending bunker, the cylindrical blending bunker of second, the bottom of the cylindrical blending bunker of second is provided with the drain pipe, the feed end of the cylindrical blending bunker of second is provided with the screen cloth.
As a further improvement of the scheme, the inner parts of the first cylindrical mixing bin and the second cylindrical mixing bin are respectively provided with an inner lining so as to reduce the adhesion of materials and facilitate cleaning.
As a further improvement of the above scheme, the cooperation position of inside lining and first cylindrical blending bunker discharge gate is provided with the sealing washer to avoid the material to take place to leak, the cooperation position of inside lining and the cylindrical blending bunker feed inlet of second is provided with the sealing washer, in order to avoid the material to take place to leak.
As a further improvement of the scheme, a plurality of holes are formed in the stirring blade to improve the material mixing effect and reduce the vortex phenomenon generated by stirring, and a plurality of holes are formed in the screen to realize secondary mixing and filtering in the material transmission process.
As a further improvement of the scheme, a temperature detector is arranged on the first sealing cover to monitor the temperature in the first cylindrical mixing bin, and a temperature detector is arranged on the side part of the second cylindrical mixing bin to monitor the temperature in the second cylindrical mixing bin.
As a further improvement of the above scheme, the lining is made of a smooth ceramic material.
The utility model has the beneficial effects that:
compared with the prior art, the mixing device capable of realizing multiple components, multiple steps and multiple conditions provided by the utility model realizes the step-by-step multiple-component stirring function under different conditions in the form of arranging the first cylindrical mixing bin and the second cylindrical mixing bin; in addition, the ceramic material is used as the lining, so that the adhesion effect of the liquid material to the side wall of the mixing device is reduced, and the cost waste is effectively reduced; and the porous screen is arranged at last, so that the material mixing effect is improved in the mixed material transferring process, crystals in the mixed material are filtered and removed, and the stability of the next procedure is ensured.
Drawings
FIG. 1 is a general schematic of the present invention;
FIG. 2 is a general cross-sectional view of the present invention;
FIG. 3 is a schematic representation of a screen according to the present invention.
Wherein: 1-a first cylindrical mixing bin, 2-a liquid inlet pipe, 3-a cleaning liquid discharge pipe, 4-a sleeve, 5-a second cylindrical mixing bin, 6-a liquid outlet pipe, 7-a gas outlet pipe, 8-a thermometer, 9-a circulating liquid pipe, 10-a first rack, 11-a second rack, 12-a first sealing cover, 13-a first cavity, 14-a motor, 15-a rotating shaft, 16-a stirring blade, 17-a valve, 18-a second sealing cover, 19-a screen, 20-an inner lining and 21-a sealing ring.
Detailed Description
The following detailed description of embodiments of the utility model is provided in connection with the accompanying drawings,
as shown in fig. 1-3, a mixing device capable of realizing multiple components, multiple steps and multiple conditions comprises a first cylindrical mixing bin 1 and a second cylindrical mixing bin 5, wherein a first rack 10 is fixed on the lower surface of the first cylindrical mixing bin 1, a second rack 11 is fixed on the lower surface of the second cylindrical mixing bin 5, the first cylindrical mixing bin 1 and the second cylindrical mixing bin 5 are connected through a sleeve 4, the sleeve 4 is provided with a mounting screw to ensure the stability of the connection, the height of the first rack 10 is higher than that of the second rack 11 to realize that mixed materials enter the second cylindrical mixing bin 5 from the first cylindrical mixing bin 1 under the self-gravity, a first sealing cover 12 is arranged at the top of the first cylindrical mixing bin 1, a liquid inlet pipe 2 is arranged on the first sealing cover 12, a cleaning liquid outlet pipe 3 is arranged at the bottom of the first cylindrical mixing bin 1, a valve 17 is arranged at the discharge end of the first cylindrical mixing silo 1 to control the opening and closing of the first cylindrical mixing silo 1, a second sealing cover 18 is arranged at the top of the second cylindrical mixing silo 5, a motor 14 is embedded in the bottom of the first cylindrical mixing silo 1 and the second sealing cover 18, the motor 14 drives a rotating shaft 15 and stirring blades 16 to rotate, an exhaust pipe 7 is arranged on the second sealing cover 18, a cavity 13 is arranged in the side wall of the first cylindrical mixing silo 1 and the outer wall of the second cylindrical mixing silo 5, the cavity 13 is provided with two circulating liquid pipes 9 to adjust the temperature of the first cylindrical mixing silo 1 and the temperature of the second cylindrical mixing silo 5 through the passing of circulating liquid, a liquid outlet pipe 6 is arranged at the bottom of the second cylindrical mixing silo 5, and a screen 19 is arranged at the feed end of the second cylindrical mixing silo 5, wherein: the inner parts of the first cylindrical mixing bin 1 and the second cylindrical mixing bin 5 are respectively provided with an inner lining 20 made of smooth ceramic materials so as to reduce the adhesion of materials and facilitate cleaning; a sealing ring 21 is arranged at the matching position of the inner liner 20 and the discharge hole of the first cylindrical mixing bin 1 to avoid leakage of materials, and a sealing ring 21 is arranged at the matching position of the inner liner 20 and the feed hole of the second cylindrical mixing bin 5 to avoid leakage of materials; the stirring blade 16 is provided with a plurality of holes to improve the material mixing effect and reduce the eddy phenomenon generated by stirring, and the screen 19 is provided with a plurality of holes to realize secondary mixing and filtering in the material transmission process; be provided with the thermoscope 8 on the first sealed lid 12 to the realization is to the control of the temperature in the first cylindrical blending bunker 1, the lateral part of the cylindrical blending bunker 5 of second is provided with thermoscope 8, in order to realize the control to the temperature in the cylindrical blending bunker 5 of second.
The mixing device capable of realizing multiple components, multiple steps and multiple conditions, provided by the utility model, has the advantages that when the mixing device is used, the valve 17 and the cleaning liquid discharge pipe 3 are firstly closed, so that the first cylindrical mixing bin 1 is sealed; circulating liquid is introduced into the first cylindrical mixing bin 1 from one inlet to one outlet of a circulating liquid pipe 9, and the mixing environment is set by observing a temperature detector 8; adding raw materials into a first cylindrical mixing bin 1 through a feeding pipe 2, and turning on a motor 14 of the first cylindrical mixing bin 1 so as to drive a rotating shaft 15 and stirring blades 16 in the first cylindrical mixing bin 1, thereby realizing the stirring of the materials in the first cylindrical mixing bin 1; then, the exhaust pipe 7 is opened, so that the air in the second cylindrical mixing bin 5 can be evacuated, and the second cylindrical mixing bin 5 is in a vacuum state, thereby realizing the setting of the next stirring environment and forming a negative pressure suction effect on the mixed materials in the first cylindrical mixing bin 1; after stirring for a certain time, opening a valve 17, enabling the materials in the first cylindrical mixing bin 1 to enter the second cylindrical mixing bin 5, and simultaneously filtering the materials by a screen 19 in the process, removing crystals in the materials, and scattering and mixing the materials; turning on a motor 14 in the second cylindrical mixing bin 5, and stirring the mixed materials for three times to ensure the full mixing of the materials; after the stirring is finished, gas is added into the second cylindrical mixing bin 5 from the exhaust pipe 7, and then the liquid outlet pipe 6 is opened to realize the leading-out of the mixed materials.
The above embodiments are not limited to the technical solutions of the embodiments themselves, and the embodiments may be combined with each other into a new embodiment. The above embodiments are only for illustrating the technical solutions of the present invention and are not limited thereto, and any modification or equivalent replacement without departing from the spirit and scope of the present invention should be covered within the technical solutions of the present invention.