CN112957992A

CN112957992A - Multifunctional mixer with self-cleaning function

Info

Publication number: CN112957992A
Application number: CN202110279500.3A
Authority: CN
Inventors: 付耀有
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-03-16
Filing date: 2021-03-16
Publication date: 2021-06-15

Abstract

The invention relates to mixing equipment, in particular to a multifunctional mixer with a self-cleaning function, which comprises an automatic discharging mechanism, a stirring and cleaning mechanism and an automatic dumping and foundation mechanism, wherein the equipment can automatically feed materials, can adjust the feeding speed, can mix and dump the raw materials, can assist in knocking and dumping finished products, and can self-clean.

Description

Multifunctional mixer with self-cleaning function

Technical Field

The invention relates to a mixing device, in particular to a multifunctional mixer with a self-cleaning function.

Background

The mixing device is common equipment in industrial production in the chemical industry, the pharmaceutical industry and other industries, the conventional mixing device is inconvenient to clean, needs to be shut down for manual auxiliary cleaning, and consumes a large amount of manpower, so that the multifunctional mixing machine with the self-cleaning function is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing a multifunctional mixer with a self-cleaning function, wherein equipment can automatically feed materials, can adjust the feeding speed, can mix the raw materials and automatically dump, can assist in knocking and dumping finished products, and can self-clean.

In order to solve the technical problems, the invention relates to a mixing device, in particular to a multifunctional mixing machine with a self-cleaning function.

The automatic discharging mechanism is connected with the stirring and cleaning mechanism, and the stirring and cleaning mechanism is connected with the automatic dumping and base mechanism.

As a further optimization of the technical scheme, the automatic discharging mechanism of the multifunctional mixer with the self-cleaning function comprises two discharging ports, a plurality of first supporting rods, two material conveying pipelines, two material storage bins, a first belt shaft motor, a first gear, a first belt shaft speed reduction gear, a first supporting seat, a second gear, two spiral pushing rods, a first hydraulic cylinder, a first two piston rods, a first plurality of chutes and two sliding plates, wherein the two discharging ports are respectively connected and communicated with the two material conveying pipelines, the plurality of first supporting rods are connected with the two material conveying pipelines, the two material conveying pipelines are respectively connected and communicated with the two material storage bins, the two material conveying pipelines are respectively connected with the two spiral pushing rods in a rotating manner, the two material conveying pipelines are respectively connected with the first hydraulic cylinder, the two material storage bins are provided with the first chutes, and the two material storage bins are respectively contacted with the two sliding plates, the first belt shaft motor is rotatably connected with the first gear, the first gear is meshed with the first belt shaft speed reducing gear, the first shaft speed reducing gear is rotatably connected with the first supporting seat, the first shaft speed reducing gear is rotatably connected with the second supporting seat, the first shaft speed reducing gear is meshed with the two gears, the two gears are respectively connected with the two spiral material pushing rods, the two hydraulic cylinders are respectively connected with the two piston rods in a sliding mode, the two piston rods are respectively connected with the two sliding plates, and the first sliding chutes are slidably connected with the two sliding plates.

As a further optimization of the technical scheme, the stirring and cleaning mechanism of the multifunctional mixer with the self-cleaning function comprises a belt shaft motor II, a gear III, a belt shaft deceleration gear II, a platform I, two frames, two belt shaft motors III, two gears IV, two gears V, two screw rods, a spiral stirring knife, a belt shaft motor IV, a lifting platform I, a lifting platform II, a belt shaft motor V, two water nozzles and a cleaning rotary knife, wherein the belt shaft motor II is rotationally connected with the gear III, the gear III is meshed with the belt shaft deceleration gear II, the belt shaft deceleration gear II is connected with the platform I, the platform I is connected with the two frames, the platform I is rotationally connected with the two belt shaft motors III, the two frames are rotationally connected with the lifting platform I and the lifting platform II in a sliding manner, the two frames are rotationally connected with the two screw rods respectively, the two belt shaft motors III are rotationally connected with the two gears IV respectively, two gears four mesh with two gears five respectively, two gears five link to each other with two lead screws respectively, two lead screws and lift platform one, two threaded connection of lift platform, spiral stirring sword rotates with band spool motor four to be connected, band spool motor four links to each other with lift platform one, lift platform two links to each other with band spool motor five, lift platform two is equipped with two water injection well choke, band spool motor five rotates with clean commentaries on classics sword to be connected, a plurality of bracing pieces one links to each other with platform one, band spool motor one links to each other with platform one, supporting seat two links to each other with platform one.

As a further optimization of the technical scheme, the automatic dumping and foundation mechanism of the multifunctional mixer with the self-cleaning function comprises a second platform, a finished product collecting tank, a second supporting rod, a wastewater collecting tank, a sixth gear, a third supporting seat, a sixth belt shaft motor, a cleaning cylinder, two clean water nozzles, two washing liquid nozzles, a third belt shaft deceleration gear, a seventh gear, a rotating shaft, an inner ratchet wheel, a digital seven-shaped chute, a stirring barrel, a fourth supporting seat, a rotating wheel, a plurality of pusher dogs, a third two supporting rods, a knocking hammer chute, a knocking hammer with a transmission sliding block and a spring, wherein the second platform is connected with the finished product collecting tank, the second platform is connected with the second supporting rod, the second platform is connected with the wastewater collecting tank, the second platform is connected with the third supporting seat, the second platform is connected with the sixth belt shaft motor, the second platform is connected with the third two supporting rods, and the second supporting, a sixth gear is rotationally connected with a sixth motor with a shaft, the sixth gear is meshed with three phases of a reduction gear with the shaft, a third support seat is rotationally connected with a third reduction gear with the shaft, the cleaning cylinder is provided with two clear water nozzles, the cleaning cylinder is provided with two washing liquid nozzles, a third reduction gear with the shaft is meshed with a seventh gear, the seventh gear is connected with a rotating shaft, the rotating shaft is rotationally connected with an inner ratchet wheel, the inner ratchet wheel is provided with a seven-shaped digital chute, the rotating shaft is connected with a stirring barrel, the rotating shaft is rotationally connected with a fourth support seat, the rotating shaft is connected with a rotating wheel, the rotating wheel is hinged with a plurality of pusher dogs, the plurality of pusher dogs are contacted with the inner ratchet wheel, a third support rod is connected with a knocking hammer chute, a knocking hammer with the seven-shaped digital chute is slidably connected with the seven-shaped digital chute, the knocking hammer is slidably connected with the knocking hammer chute, the knocking hammer chute, and a second belt shaft motor is connected with a second platform, and a second belt shaft speed reduction gear is rotatably connected with the second platform.

As a further optimization of the technical scheme, the two water nozzles of the multifunctional mixer with the self-cleaning function are respectively connected with a clean water pipeline and a cleaning solution pipeline which can be controlled to be opened and closed.

As a further optimization of the technical scheme, the two clean water nozzles and the two washing liquid nozzles of the multifunctional mixer with the self-cleaning function are respectively connected with the clean water pipeline and the washing liquid pipeline which can be controlled to be opened and closed.

The multifunctional mixer with the self-cleaning function has the beneficial effects that:

according to the multifunctional mixer with the self-cleaning function, the equipment can automatically feed materials, the equipment can adjust the feeding speed, the equipment can mix the raw materials and automatically dump the raw materials, the equipment can assist in knocking and dumping finished products, and the equipment can self-clean.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a first structural schematic diagram of a multifunctional mixer with a self-cleaning function according to the present invention.

Fig. 2 is a schematic structural diagram of a multifunctional mixer with a self-cleaning function according to the present invention.

FIG. 3 is a third schematic structural diagram of a multifunctional mixer with self-cleaning function according to the present invention.

Fig. 4 is a first structural schematic diagram of an automatic discharging mechanism 1 of a multifunctional mixer with a self-cleaning function according to the present invention.

Fig. 5 is a schematic structural diagram of an automatic discharging mechanism 1 of a multifunctional mixer with a self-cleaning function according to the second embodiment of the present invention.

Fig. 6 is a third schematic structural diagram of an automatic discharging mechanism 1 of the multifunctional mixer with self-cleaning function according to the present invention.

Fig. 7 is a first structural schematic diagram of a stirring and cleaning mechanism 2 of a multifunctional mixer with a self-cleaning function according to the present invention.

Fig. 8 is a second schematic structural diagram of the stirring and cleaning mechanism 2 of the multifunctional mixer with self-cleaning function according to the present invention.

Fig. 9 is a first structural diagram of an automatic dumping and base mechanism 3 of the multifunctional mixer with self-cleaning function according to the present invention.

Fig. 10 is a second structural schematic diagram of the automatic dumping and base mechanism 3 of the multifunctional mixer with self-cleaning function according to the present invention.

Fig. 11 is a third schematic structural diagram of an automatic dumping and base mechanism 3 of the multifunctional mixer with self-cleaning function according to the present invention.

Fig. 12 is a fourth schematic structural diagram of an automatic dumping and base mechanism 3 of the multifunctional mixer with self-cleaning function according to the present invention.

Fig. 13 is a fifth schematic structural view of the automatic dumping and base mechanism 3 of the multifunctional mixer with self-cleaning function according to the present invention.

In the figure: an automatic discharging mechanism 1; a discharge port 1-1; 1-2 parts of a first support rod; a material conveying pipeline 1-3; 1-4 of a storage bin; 1-5 of a first motor with a shaft; 1-6 of a first gear; 1-7 of a belt shaft deceleration gear I; 1-8 parts of a first supporting seat; 1-9 parts of a second supporting seat; 1-10 parts of a second gear; 1-11 parts of a spiral material pushing rod; 1-12 of a hydraulic cylinder I; 1-13 of a piston rod; 1-14 of the first chute; 1-15 of a sliding plate; a stirring and cleaning mechanism 2; a second motor 2-1 with a shaft; gear three 2-2; a belt shaft deceleration gear II 2-3; 2-4 of a first platform; 2-5 of a frame; a third motor with a shaft 2-6; 2-7 parts of gear; 2-8 parts of a gear; 2-9 parts of screw rod; 2-10 parts of a spiral stirring knife; 2-11 parts of a motor with a shaft; 2-12 parts of a first lifting platform; 2-13 parts of a second lifting platform; a fifth motor with a shaft 2-14; 2-15 parts of a water nozzle; cleaning the rotary cutter 2-16; an automatic dumping and foundation mechanism 3; a second platform 3-1; a finished product collecting tank 3-2; 3-3 parts of a second support rod; 3-4 of a waste water collecting tank; 3-5 parts of a gear; 3-6 parts of a supporting seat; six motors with shafts are 3-7; cleaning cylinders 3-8; 3-9 parts of a clear water nozzle; 3-10 parts of a washing liquid water nozzle; a third belt shaft speed reduction gear 3-11; 3-12 parts of a gear wheel seven; 3-13 of a rotating shaft; 3-14 parts of an inner ratchet wheel; 3-15 of a digital seven-shaped chute; 3-16 parts of a stirring barrel; a fourth supporting seat is 3-17; 3-18 of a rotating wheel; 3-19 of pusher dog; 3-20 parts of a third support rod; knocking hammer chutes 3-21; a knocking hammer 3-22 with a transmission slide block; and 3-23 of springs.

Detailed Description

The first embodiment is as follows:

the present invention is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, and fig. 13, and the present invention relates to a mixing device, and more specifically, to a multifunctional mixer with a self-cleaning function, which includes an automatic discharging mechanism 1, a stirring and cleaning mechanism 2, and an automatic pouring and base mechanism 3.

The automatic discharging mechanism 1 is connected with the stirring and cleaning mechanism 2, and the stirring and cleaning mechanism 2 is connected with the automatic dumping and base mechanism 3.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, and fig. 13, and the embodiment further describes the embodiment, where the automatic discharging mechanism 1 includes two discharging ports 1-1, a plurality of support rods 1-2, two material conveying pipes 1-3, two storage bins 1-4, a first motor with a shaft 1-5, a first gear 1-6, a first gear with a shaft reducing gear 1-7, a first support seat 1-8, a second support seat 1-9, two gears 1-10, two spiral material pushing rods 1-11, two hydraulic cylinders 1-12, two piston rods 1-13, a plurality of chutes 1-14, two sliding plates 1-15, and two discharging ports 1-1 are respectively connected and communicated with the two material conveying pipes 1-3, the plurality of supporting rods I1-2 are connected with two material conveying pipelines 1-3, the two material conveying pipelines 1-3 are respectively connected with and communicated with two storage bins 1-4, the two material conveying pipelines 1-3 are respectively rotatably connected with two spiral material pushing rods 1-11, the two material conveying pipelines 1-3 are respectively connected with two hydraulic cylinders I1-12, the two storage bins 1-4 are provided with a plurality of chutes I1-14, the two storage bins 1-4 are respectively contacted with two sliding plates 1-15, a shaft-provided motor I1-5 is rotatably connected with a gear I1-6, the gear I1-6 is meshed with a shaft-provided deceleration gear I1-7, the shaft-provided deceleration gear I1-7 is rotatably connected with a supporting seat I1-8, the shaft-provided deceleration gear I1-7 is rotatably connected with a supporting seat II 1-9, the first shaft speed reducing gear 1-7 is meshed with the second two gears 1-10, the second two gears 1-10 are respectively connected with the two spiral material pushing rods 1-11, the first two hydraulic cylinders 1-12 are respectively connected with the first two piston rods 1-13 in a sliding manner, the first two piston rods 1-13 are respectively connected with the first two sliding plates 1-15, the first sliding chutes 1-14 are connected with the second two sliding plates 1-15 in a sliding manner, the second shaft motor 2-1 drives the third gear 2-2 to rotate, the third gear 2-2 is connected with the second shaft speed reducing gear 2-3 to rotate, the second shaft speed reducing gear 2-3 drives the first platform 2-4 to rotate, so that the two discharge ports 1-1 are positioned above the stirring barrel 3-16, the first shaft motor 1-5 drives the first gear 1-6 to rotate, the first gear 1-6 drives the first shaft speed reducing gear 1-7 to rotate, the first shaft speed reduction gear 1-7 drives the second two gears 1-10 to rotate, the second two gears 1-10 drive the two spiral material pushing rods 1-11 to rotate, raw materials are conveyed out from the two material storage bins 1-4 through the two material conveying pipelines 1-3 and then through the two material outlet ports 1-1, so that the equipment has an automatic feeding function, the first two hydraulic cylinders 1-12 release pressure to drive the first two piston rods 1-13 to return, the first two piston rods 1-13 drive the two sliding plates 1-15 to slide along the first sliding chutes 1-14, the speed of the raw materials entering the first two material conveying pipelines 1-3 from the two material storage bins 1-4 is changed, and the equipment has a function of controlling the feeding speed.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, and the embodiment further describes the embodiment, wherein the stirring and cleaning mechanism 2 comprises a second motor with a shaft 2-1, a third gear 2-2, a second gear with a shaft 2-3, a first platform 2-4, two frames 2-5, two motors with a shaft three 2-6, two gears four 2-7, two gears five 2-8, two screw rods 2-9, a spiral stirring knife 2-10, a fourth motor with a shaft 2-11, a first lifting platform 2-12, a second lifting platform 2-13, a fifth motor with a shaft 2-14, two water nozzles 2-15, a cleaning rotary knife 2-16, the second motor with a shaft 2-1 is rotatably connected with the third gear 2-2, the gear III 2-2 is meshed with the belt shaft speed reduction gear II 2-3, the belt shaft speed reduction gear II 2-3 is connected with the platform I2-4, the platform I2-4 is connected with the two frames 2-5, the platform I2-4 is connected with the two belt shaft motors III 2-6, the platform I2-4 is rotationally connected with the two screw rods 2-9, the two frames 2-5 are slidably connected with the lifting platform I2-12 and the lifting platform II 2-13, the two frames 2-5 are respectively rotationally connected with the two screw rods 2-9, the two belt shaft motors III 2-6 are respectively rotationally connected with the two gear IV 2-7, the two gear IV 2-7 are respectively meshed with the two gear V2-8, the two gear V2-8 are respectively connected with the two screw rods 2-9, two screw rods 2-9 are in threaded connection with a first lifting platform 2-12 and a second lifting platform 2-13, a spiral stirring knife 2-10 is in rotary connection with a fourth motor 2-11 with a shaft, the fourth motor 2-11 with the shaft is connected with a first lifting platform 2-12, the second lifting platform 2-13 is connected with a fifth motor 2-14 with the shaft, the second lifting platform 2-13 is provided with two water nozzles 2-15, the fifth motor 2-14 with the shaft is in rotary connection with a cleaning rotary knife 2-16, a plurality of support rods 1-2 are connected with a first platform 2-4, a first motor 1-5 with the shaft is connected with a first platform 2-4, a first support seat 1-8 is connected with a first platform 2-4, a second support seat 1-9 is connected with a first platform 2-4, and a third motor 2-6 with the shaft respectively drives two gears four 2-7 to rotate, the two gears four 2-7 respectively drive the two gears five 2-8 to rotate, the two gears five 2-8 respectively drive the two screw rods 2-9 to rotate, the screw rods 2-9 drive the lifting platform one 2-12 to move downwards so that the spiral stirring blades 2-10 enter the stirring barrel 3-16, and the shaft-provided motor four 2-11 drives the spiral stirring blades 2-10 to rotate so as to stir and mix the raw materials in the stirring barrel 3-16, so that the equipment has the function of mixing the raw materials.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, and fig. 13, and the embodiment further describes the embodiment, where the automatic dumping and foundation mechanism 3 includes a second platform 3-1, a second finished product collecting tank 3-2, a second support rod 3-3, a wastewater collecting tank 3-4, a sixth gear 3-5, a third two support seats 3-6, a sixth shaft motor 3-7, a cleaning cylinder 3-8, two clear water nozzles 3-9, two washing liquid nozzles 3-10, a third shaft deceleration gear 3-11, a seventh gear 3-12, a rotating shaft 3-13, an inner ratchet 3-14, a seventh digital chute 3-15, a stirring barrel 3-16, and a fourth two support seats 3-17, a third shaft deceleration gear 3-11, a seventh gear 3-12, a rotating, 3-18 parts of rotating wheel, 3-19 parts of a plurality of pusher dogs, 3-20 parts of two support rods, 3-21 parts of a knocking hammer chute, 3-22 parts of a belt-driven sliding block knocking hammer, 3-23 parts of a spring, 3-1 parts of a platform II, 3-3 parts of the support rods, 3-1 parts of the platform II, 3-4 parts of a wastewater collecting tank, 3-6 parts of a platform II, 3-1 parts of two support seats III, 3-7 parts of a belt shaft motor, 3-1 parts of the platform II, 3-20 parts of the two support rods III, 3-8 parts of the support rods II, 3-5 parts of a gear VI, 3-7 parts of the belt shaft motor, 3-5 parts of the gear VI, and 3-11 parts of a belt shaft deceleration gear III, two supporting seats three 3-6 are rotatably connected with a belt shaft speed reduction gear three 3-11, a cleaning cylinder 3-8 is provided with two clear water nozzles 3-9, the cleaning cylinder 3-8 is provided with two washing liquid nozzles 3-10, the belt shaft speed reduction gear three 3-11 is meshed with a gear seven 3-12, the gear seven 3-12 is connected with a rotating shaft 3-13, the rotating shaft 3-13 is rotatably connected with an inner ratchet wheel 3-14, the inner ratchet wheel 3-14 is provided with a digital seven-shaped chute 3-15, the rotating shaft 3-13 is connected with a stirring barrel 3-16, the rotating shaft 3-13 is rotatably connected with two supporting seats four 3-17, the rotating shaft 3-13 is connected with a rotating wheel 3-18, the rotating wheel 3-18 is hinged with a plurality of shifting claws 3-19, the plurality of shifting claws 3-19 are contacted with the inner ratchet wheel 3-14, two support rods III 3-20 are connected with knocking hammer chutes 3-21, belt transmission slide block knocking hammers 3-22 are connected with digital seven-shaped chutes 3-15 in a sliding manner, belt transmission slide block knocking hammers 3-22 are connected with knocking hammer chutes 3-21 in a sliding manner, knocking hammer chutes 3-21 are contacted with springs 3-23, belt transmission slide block knocking hammers 3-22 are contacted with springs 3-23, belt shaft motor II 2-1 is connected with platform II 3-1, belt shaft deceleration gear II 2-3 is connected with platform II 3-1 in a rotating manner, belt shaft motor VI 3-7 drives gear VI 3-5 to rotate, gear VI 3-5 drives belt shaft deceleration gear III 3-11 to rotate, belt shaft deceleration gear III 3-11 drives gear VII 3-12 to rotate, gear VII 3-12 drives rotating shaft 3-13 to rotate, the rotating shaft 3-13 drives the stirring barrel 3-16 to rotate towards the finished product collecting tank 3-2 to pour out the finished product, the rotating shaft 3-13 drives the rotating wheel 3-18 to rotate, the rotating wheel 3-18 drives the plurality of pusher dogs 3-19 to move, the plurality of pusher dogs 3-19 drive the inner ratchet wheel 3-14 to rotate, the digital seven-shaped chute 3-15 drives the belt transmission slide block knocking hammer 3-22 to move along the knocking hammer chute 3-21 towards the direction far away from the stirring barrel 3-16, the spring 3-23 is compressed at the same time, when the stirring barrel 3-16 rotates 120 degrees, the belt shaft motor six 3-7 is powered off and stops rotating, the digital seven-shaped chute 3-15 moves to a partial chute which is parallel to the rotating shaft 3-13 and is in contact position with the belt transmission slide block knocking hammer 3-22, the spring 3-23 releases to reset to push the belt transmission slide block knocking hammer 3-22 to pour out the finished product along the knocking hammer chute 3-21 Moving towards a direction close to the stirring barrel 3-16, knocking the stirring barrel 3-16 to assist raw materials to fall down, enabling the equipment to have the functions of automatically dumping finished products and assisting in knocking and discharging, driving the first platform 2-4 to move to the cleaning rotating knife 2-16 to be positioned right above the stirring barrel 3-16 by the second motor 2-1 with a shaft, driving the first lifting platform 2-12 and the second lifting platform 2-13 to fall respectively by the third motor 2-6 with a shaft, enabling the cleaning rotating knife 2-16 to move into the stirring barrel 3-16, moving the spiral stirring knife 2-10 into the cleaning cylinder 3-8, driving the spiral stirring knife 2-10 to rotate by the fourth motor 2-11 with a shaft, simultaneously spraying cleaning solution and cleaning solution by the two water nozzles 3-9 and the two water nozzles 3-10 in sequence to clean the spiral stirring knife 2-10, wastewater enters a wastewater collection tank 3-4 to be collected, a belt shaft motor five 2-14 drives a cleaning rotary cutter 2-16 to rotate, two water nozzles 2-15 sequentially spray cleaning liquid and clear water to clean a stirring barrel 3-16, a belt shaft motor three 2-6 drives a lifting platform I2-12 to ascend after cleaning work is finished, a belt shaft motor six 3-7 drives the stirring barrel 3-16 to rotate towards the direction of the wastewater collection tank 3-4 to dump the washed wastewater into the wastewater collection tank 3-4 to be collected, and the equipment has a self-cleaning function.

The fifth concrete implementation mode:

the present embodiment will be described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, and fig. 13, and the present embodiment further describes the first embodiment, in which the two water nozzles 2 to 15 are respectively connected to a clean water pipeline and a clean water pipeline which can be controlled to be opened and closed.

The sixth specific implementation mode:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, and fig. 13, and the present embodiment further describes the first embodiment, in which the two clean water nozzles 3-9 and the two wash liquid nozzles 3-10 are respectively connected with a clean water pipeline and a wash liquid pipeline which can be controlled to be opened and closed.

The working principle of the device is as follows: the device can automatically feed materials, a belt shaft motor II 2-1 drives a gear III 2-2 to rotate, the gear III 2-2 and a belt shaft deceleration gear II 2-3 to rotate, the belt shaft deceleration gear II 2-3 drives a platform I2-4 to rotate so that two discharge ports 1-1 are positioned above a stirring barrel 3-16, a belt shaft motor I1-5 drives a gear I1-6 to rotate, the gear I1-6 drives a belt shaft deceleration gear I1-7 to rotate, the shaft deceleration gear I1-7 drives two gears II 1-10 to rotate, the two gears II 1-10 drive two spiral pushing rods 1-11 to rotate, and the raw materials are conveyed out from two storage bins 1-4 through two conveying pipelines 1-3 and then through two discharge ports 1-1, so that the device has an automatic feeding function; the device can adjust the feeding speed, the two hydraulic cylinders I1-12 are decompressed to drive the two piston rods I1-13 to return, the two piston rods I1-13 drive the two sliding plates 1-15 to slide along the plurality of sliding chutes I1-14, and further the speed of the raw materials entering the two material conveying pipelines 1-3 from the two storage bins 1-4 is changed, so that the device has the function of controlling the feeding speed; the equipment can mix raw materials and automatically dump the raw materials, two belt shaft motors three 2-6 respectively drive two gears four 2-7 to rotate, two gears four 2-7 respectively drive two gears five 2-8 to rotate, two gears five 2-8 respectively drive two screw rods 2-9 to rotate, the screw rods 2-9 drive a lifting platform I2-12 to move downwards so that a spiral stirring knife 2-10 enters a stirring barrel 3-16, and a belt shaft motor four 2-11 drives a spiral stirring knife 2-10 to rotate so as to stir and mix the raw materials in the stirring barrel 3-16, so that the equipment has the function of mixing the raw materials; the equipment can assist in knocking and dumping finished products, a motor six 3-7 with a shaft drives a gear six 3-5 to rotate, a gear six 3-5 drives a gear three 3-11 with a shaft to rotate, a gear three 3-11 with a shaft to rotate to drive a gear seven 3-12 to rotate, a gear seven 3-12 drives a rotating shaft 3-13 to rotate, the rotating shaft 3-13 drives a stirring barrel 3-16 to rotate towards a finished product collecting tank 3-2 to pour out the finished products, the rotating shaft 3-13 drives a rotating wheel 3-18 to rotate, the rotating wheel 3-18 drives a plurality of pusher dogs 3-19 to move, the plurality of pusher dogs 3-19 drive an inner ratchet wheel 3-14 to rotate, so that a digital seven-shaped chute 3-15 drives a belt transmission slide block to drive a knocking hammer 3-22 to move along a knocking hammer chute 3-21 towards a direction far away from the stirring barrel 3-16, meanwhile, the springs 3-23 are compressed, when the stirring barrel 3-16 rotates by 120 degrees, the motor six 3-7 with the shaft is powered off and stops rotating, at the moment, the digital seven-shaped chutes 3-15 move to partial chutes parallel to the direction of the rotating shaft 3-13 at the contact position of the belt transmission slide block knocking hammers 3-22, the springs 3-23 release the reset to push the belt transmission slide block knocking hammers 3-22 to move towards the direction close to the stirring barrel 3-16 along the knocking hammer chutes 3-21, and knocking auxiliary raw materials for falling down the stirring barrel 3-16, so that the equipment has the functions of automatically dumping finished products and assisting in knocking and blanking; the equipment can be self-cleaned, a first platform 2-4 is driven by a second shaft motor 2-1 to move to a position where a cleaning rotary cutter 2-16 is positioned right above a stirring barrel 3-16, a first lifting platform 2-12 and a second lifting platform 2-13 are respectively driven by a third shaft motor 2-6 to descend, so that the cleaning rotary cutter 2-16 moves to the stirring barrel 3-16, a spiral stirring cutter 2-10 moves to a cleaning cylinder 3-8, a fourth shaft motor 2-11 drives the spiral stirring cutter 2-10 to rotate, simultaneously two cleaning water nozzles 3-9 and two cleaning solution nozzles 3-10 sequentially spray cleaning solution and clean water to clean the spiral stirring cutter 2-10, wastewater enters a wastewater collecting tank 3-4 to be collected, and a fifth shaft motor 2-14 drives the cleaning rotary cutter 2-16 to rotate, cleaning is carried out on the stirring barrels 3-16 by sequentially spraying cleaning solution and clean water through the two water nozzles 2-15, after cleaning is completed, the lifting platform I is driven to ascend 2-12 by the third shaft motor 2-6, the stirring barrels 3-16 are driven to rotate towards the direction of the wastewater collecting tank 3-4 by the sixth shaft motor 3-7, and the washed wastewater is dumped to the wastewater collecting tank 3-4 to be collected, so that the equipment has a self-cleaning function.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a multifunctional mixer that possesses self-cleaning function, includes automatic discharging mechanism (1), stirring and clean mechanism (2), empties automatically and basic mechanism (3), its characterized in that: the automatic discharging mechanism (1) is connected with the stirring and cleaning mechanism (2), and the stirring and cleaning mechanism (2) is connected with the automatic dumping and base mechanism (3).

2. The multifunctional mixer with self-cleaning function as claimed in claim 1, wherein: the automatic discharging mechanism (1) comprises two discharging ports (1-1), a plurality of supporting rods (1-2), two material conveying pipelines (1-3), two storage bins (1-4), a belt shaft motor (1-5), a gear (1-6), a belt shaft speed reduction gear (1-7), a supporting seat (1-8), a supporting seat (1-9), two gears (1-10), two spiral pushing rods (1-11), two hydraulic cylinders (1-12), two piston rods (1-13), a plurality of chutes (1-14) and two sliding plates (1-15), wherein the two discharging ports (1-1) are respectively connected and communicated with the two material conveying pipelines (1-3), the plurality of supporting rods (1-2) are connected with the two material conveying pipelines (1-3), the two material conveying pipelines (1-3) are respectively connected and communicated with two material storage bins (1-4), the two material conveying pipelines (1-3) are respectively rotatably connected with two spiral material pushing rods (1-11), the two material conveying pipelines (1-3) are respectively connected with two hydraulic cylinders (1-12), the two material storage bins (1-4) are provided with a plurality of chutes (1-14), the two material storage bins (1-4) are respectively contacted with two sliding plates (1-15), a first belt shaft motor (1-5) is rotatably connected with a first gear (1-6), the first gear (1-6) is meshed with a first belt shaft deceleration gear (1-7), the first shaft deceleration gear (1-7) is rotatably connected with a first support seat (1-8), the first shaft deceleration gear (1-7) is rotatably connected with a second support seat (1-9), the first shaft speed reduction gear (1-7) is meshed with two second gears (1-10), the two second gears (1-10) are respectively connected with two spiral material pushing rods (1-11), two hydraulic cylinders (1-12) are respectively in sliding connection with two first piston rods (1-13), the two first piston rods (1-13) are respectively connected with two sliding plates (1-15), and a plurality of first sliding chutes (1-14) are in sliding connection with the two sliding plates (1-15).

3. The multifunctional mixer with self-cleaning function as claimed in claim 1, wherein: the stirring and cleaning mechanism (2) comprises a second motor (2-1) with a shaft, a third gear (2-2), a second reduction gear (2-3) with a shaft, a first platform (2-4), two frames (2-5), a third motor (2-6) with a shaft, a fourth gear (2-7), a fifth gear (2-8), two screw rods (2-9), a spiral stirring knife (2-10), a fourth motor (2-11) with a shaft, a first lifting platform (2-12), a second lifting platform (2-13), a fifth motor (2-14) with a shaft, two water nozzles (2-15) and a cleaning rotary knife (2-16), wherein the second motor (2-1) with a shaft is rotatably connected with the third gear (2-2), and the third gear (2-2) is meshed with the second reduction gear (2-3) with a shaft, a second reduction gear (2-3) with a shaft is connected with a first platform (2-4), the first platform (2-4) is connected with two frames (2-5), the first platform (2-4) is connected with two third motors (2-6) with shafts, the first platform (2-4) is rotationally connected with two screw rods (2-9), the two frames (2-5) are slidably connected with a first lifting platform (2-12) and a second lifting platform (2-13), the two frames (2-5) are respectively rotationally connected with the two screw rods (2-9), the two third motors (2-6) with shafts are respectively rotationally connected with two fourth gears (2-7), the two fourth gears (2-7) are respectively meshed with two fifth gears (2-8), the two fifth gears (2-8) are respectively connected with the two screw rods (2-9), two screw rods (2-9) are in threaded connection with a first lifting platform (2-12) and a second lifting platform (2-13), a spiral stirring knife (2-10) is rotationally connected with a fourth motor (2-11) with a shaft, the fourth motor (2-11) with the shaft is connected with the first lifting platform (2-12), the second lifting platform (2-13) is connected with a fifth motor (2-14) with the shaft, the second lifting platform (2-13) is provided with two water nozzles (2-15), the fifth motor (2-14) with the shaft is rotationally connected with a cleaning rotating knife (2-16), a plurality of support rods (1-2) are connected with the first platform (2-4), the first motor (1-5) with the shaft is connected with the first platform (2-4), and a support seat (1-8) is connected with the first platform (2-4), the second supporting seat (1-9) is connected with the first platform (2-4).

4. The multifunctional mixer with self-cleaning function as claimed in claim 1, wherein: the automatic dumping and foundation mechanism (3) comprises a platform II (3-1), a finished product collecting tank (3-2), a support rod II (3-3), a waste water collecting tank (3-4), a gear VI (3-5), two support seats III (3-6), a shaft-provided motor VI (3-7), a cleaning cylinder (3-8), two clear water nozzles (3-9), two washing liquid nozzles (3-10), a shaft-provided deceleration gear III (3-11), a gear VII (3-12), a rotating shaft (3-13), an inner ratchet wheel (3-14), a digital seven-shaped sliding groove (3-15), a stirring barrel (3-16), two support seats IV (3-17), a rotating wheel (3-18), a plurality of shifting claws (3-19), two support rods III (3-20), A knocking hammer chute (3-21), a belt transmission slide block knocking hammer (3-22) and a spring (3-23), wherein a second platform (3-1) is connected with a finished product collecting tank (3-2), the second platform (3-1) is connected with a second support rod (3-3), the second platform (3-1) is connected with a wastewater collecting tank (3-4), the second platform (3-1) is connected with two third support seats (3-6), the second platform (3-1) is connected with a sixth belt shaft motor (3-7), the second platform (3-1) is connected with two third support rods (3-20), the second support rod (3-3) is connected with a cleaning cylinder (3-8), a sixth gear (3-5) is rotationally connected with a sixth belt shaft motor (3-7), the sixth gear (3-5) is meshed with a third belt shaft deceleration gear (3-11), two supporting seats III (3-6) are rotationally connected with a belt shaft speed reduction gear III (3-11), a cleaning cylinder (3-8) is provided with two clear water nozzles (3-9), the cleaning cylinder (3-8) is provided with two washing liquid nozzles (3-10), the belt shaft speed reduction gear III (3-11) is meshed with a gear VII (3-12), the gear VII (3-12) is connected with a rotating shaft (3-13), the rotating shaft (3-13) is rotationally connected with an inner ratchet wheel (3-14), the inner ratchet wheel (3-14) is provided with a digital seven-shaped chute (3-15), the rotating shaft (3-13) is connected with a stirring barrel (3-16), the rotating shaft (3-13) is rotationally connected with two supporting seats IV (3-17), the rotating shaft (3-13) is connected with a rotating wheel (3-18), the rotating wheel (3-18) is hinged with a plurality of pusher dogs (3-19), the plurality of pusher dogs (3-19) are contacted with the inner ratchet wheel (3-14), the two support rods (3-20) are connected with the knocking hammer chutes (3-21), the belt transmission slide block knocking hammers (3-22) are connected with the digital seven-shaped chutes (3-15) in a sliding manner, the belt transmission slide block knocking hammers (3-22) are connected with the knocking hammer chutes (3-21) in a sliding manner, the knocking hammer chutes (3-21) are contacted with the springs (3-23), the belt transmission slide block knocking hammers (3-22) are contacted with the springs (3-23), the belt shaft motor II (2-1) is connected with the platform II (3-1), and the belt shaft deceleration gear II (2-3) is connected with the platform II (3-1) in a rotating manner.

5. The multifunctional mixer with self-cleaning function as claimed in claim 3, wherein: the two water nozzles (2-15) are respectively connected with a clean water pipeline and a washing liquid pipeline which can be controlled to be opened and closed.

6. The multifunctional mixer with self-cleaning function as claimed in claim 4, wherein: the two clear water nozzles (3-9) and the two washing liquid nozzles (3-10) are respectively connected with a clear water pipeline and a washing liquid pipeline which can be controlled to be switched on and off.