CN113975991A

CN113975991A - Processing equipment and processing method for processing and producing nicotine salt

Info

Publication number: CN113975991A
Application number: CN202111203749.2A
Authority: CN
Inventors: 邹阳; 邹军; 刘梅森; 罗维贤
Original assignee: Shenzhen Zinwi Biotech Co Ltd
Current assignee: Shenzhen Zinwi Biotech Co Ltd
Priority date: 2021-10-15
Filing date: 2021-10-15
Publication date: 2022-01-28

Abstract

The invention discloses processing equipment and a processing method for nicotine salt processing production, and belongs to the technical field of nicotine salt processing equipment.

Description

Processing equipment and processing method for processing and producing nicotine salt

Technical Field

The invention relates to nicotine salt processing, in particular to processing equipment for nicotine salt processing production, and further relates to a nicotine salt processing method, in particular to a processing method for the processing equipment for nicotine salt processing production, and belongs to the technical field of nicotine salt processing.

Background

In the prior art, different raw material solutions need to be proportioned and added into a stirring device for full stirring and heating, while the existing stirring device adopts a single solution adding way, cannot realize synchronous addition, cannot perform heat exchange or overheat treatment during addition, and has low production efficiency and long production time;

secondly, the mixed nicotine salt solution also contains more impurities during production and processing, and often needs to be filtered again by a separate filtering device, so that the occupied space of the two devices is large, the cost is high, secondly, the filter screen of the existing filtering device is easy to block, in addition, more motor devices are adopted, and the cost is high.

Disclosure of Invention

The invention mainly aims to provide processing equipment and a processing method for processing and producing nicotine salt, wherein an electric heater is started to drive an electric heating plate to operate, the interior of a stirring and mixing bin is heated through the electric heating plate, different raw materials can be respectively poured into a first raw material through a conical feeding cover and enter a first aluminum alloy liquid guide pipe through a rotating liquid feeding pipe, the first aluminum alloy liquid guide pipe extrudes a first one-way valve and pushes the first one-way valve open to enable the raw materials to enter the stirring and mixing bin, a second raw material is added through a second liquid feeding pump and enters a second heat exchange bin, the raw material enters a second aluminum alloy liquid guide pipe through the interior of the second heat exchange bin, the second one-way valve is opened through the second aluminum alloy liquid guide pipe to push the second one-way valve to enable the raw material to enter the stirring and mixing bin, and the other end of an arch-shaped pipe is communicated with a raw material three storage bin, then, a first liquid inlet pump is started to pump the raw materials into the interior of the arch-shaped pipe for preheating, then the raw materials enter a spraying disc through the first liquid inlet pump, the raw materials are sprayed into a stirring and mixing bin through a spraying head, a linkage motor is started to drive a vibration rotating rod to rotate, a special-shaped wheel is driven to rotate through the vibration rotating rod, an ejector rod is driven to impact an impact block through the special-shaped wheel to impact the cross-shaped bayonet, a filter screen plate is driven to vibrate through an impact side vibration frame of the cross-shaped bayonet, a second bevel gear is driven to move through the rotation of the vibration rotating rod, a fifth bevel gear is driven to rotate through the second bevel gear, a second transmission rod is driven to rotate through the second transmission rod, a sixth bevel gear is driven to rotate through the second bevel gear, a first transmission rod is driven to rotate through the first transmission rod, and a fourth bevel gear is driven to rotate through the first transmission rod, drive third bevel gear through fourth bevel gear and rotate, it rotates to drive rotatory liquid feeding pipe through third bevel gear, and then carry out stirring through rotatory liquid feeding pipe and mix the raw materials of storehouse inside to stir, rotation through U type frame, it rotates to drive connecting bearing, promote the push rod through connecting bearing, promote the back and forth movement of clearance piece through the push rod and carry out the friction clearance to filtering screen plate top, the raw materials can stir earlier again and mix in the storehouse mix the back rethread first play liquid valve and get into to filter in the storehouse and filter simultaneously add new raw materials component and mix in stirring and mixing the storehouse, form to mix with this circulation and filter and go on in step.

The purpose of the invention can be achieved by adopting the following technical scheme:

a processing device for nicotine salt processing production comprises a stirring and mixing bin, wherein filter bins are arranged on two sides of the bottom of the stirring and mixing bin through I-shaped connecting legs, an electric heating assembly is arranged on the inner layer of the stirring and mixing bin, a rotary liquid feeding pipe is arranged in the middle of the inner top of the stirring and mixing bin through a bearing, a conical feeding cover is communicated with the top of the rotary liquid feeding pipe, first material guide pipe assemblies are arranged in the stirring and mixing bin and positioned on the outer side of the rotary liquid feeding pipe at equal intervals, a second material guide pipe assembly penetrates through the inner wall of the stirring and mixing bin, the second material guide pipe assembly and the first material guide pipe assembly are distributed in a staggered mode, a second heat exchange bin is sleeved below the outer side of the stirring and mixing bin and communicated with the first material guide pipe assembly, a first liquid inlet pump assembly communicated with the inner portion of the second heat exchange bin is arranged on the top of the second heat exchange bin, and a spraying disc assembly is arranged on the outer side of the conical feeding cover and positioned above the inner portion of the stirring and mixing bin, a heat exchange tube component is arranged above the outer side of the stirring and mixing bin and is communicated with the spraying disc component through a second liquid inlet pump component, a liquid separation cover body is arranged outside the rotary liquid feeding tube and below the spraying disc component, the middle part of the bottom of the stirring and mixing bin is communicated with a first liquid outlet valve, two sides of the bottom of the stirring and mixing bin are provided with a filtering bin through I-shaped connecting legs, the bottom of the first liquid outlet valve is communicated with the middle part of the top of the filtering bin, two ends of the inner side of the filtering bin are provided with auxiliary vibration components, the auxiliary vibration component is provided with a filter screen component, the two sides of the filter screen component and the inner bottom of the filter bin are provided with special-shaped wheel transmission components for driving the filter screen component to vibrate, the bottom of the outer side of the filter bin is provided with a side bottom plate, the top of the side bottom plate is provided with a driving component, the driving assembly is respectively connected with a bevel gear driving assembly which can drive the rotating liquid feeding pipe to rotate and a cleaning rod assembly which can clean the filter screen assembly through a transmission rod assembly.

Preferably, the electric heating assembly comprises an electric heating plate and an electric heater, the electric heating plate is arranged on the inner layer of the stirring and mixing bin, the electric heater is arranged above the outer side of the stirring and mixing bin, and the electric heater is electrically connected with the electric heating plate through a lead;

the first guide pipe component comprises a first aluminum alloy liquid guide pipe, a first one-way valve and a second limiting spring, a plurality of groups of first aluminum alloy liquid guide pipes are communicated with the lower portion of the outer side of the rotary liquid feeding pipe at equal intervals, the first one-way valve is plugged into an inner port of the first aluminum alloy liquid guide pipe, and the second limiting spring is installed between the first one-way valve and the first aluminum alloy liquid guide pipe.

Preferably, the second material guide pipe assembly comprises a second aluminum alloy liquid guide pipe, a first limiting spring and a second one-way valve, the second aluminum alloy liquid guide pipe is communicated with the lower part of the inner part of the stirring and mixing bin, the second one-way valve is plugged in the inner end part of the second aluminum alloy liquid guide pipe, the first limiting spring is installed between the second one-way valve and the second aluminum alloy liquid guide pipe, and the other end of the second aluminum alloy liquid guide pipe penetrates through the stirring and mixing bin and is communicated with the inner part of the second heat exchange bin;

the first liquid inlet pump assembly comprises a second liquid inlet pump and a liquid guide pipe, the top of the second heat exchange bin is communicated with the second liquid inlet pump, and the other end of the second liquid inlet pump is communicated with the liquid guide pipe.

Preferably, the spraying disc assembly comprises a spraying disc, a spraying head and an annular groove, the spraying disc is arranged on the outer side of the rotary liquid adding pipe and inside the stirring and mixing bin, the spraying heads are communicated with the bottom of the spraying disc at equal intervals, the annular groove is formed in the top of the spraying disc by taking the axial direction of the rotary liquid adding pipe as the center, and the second liquid inlet pump assembly is communicated with the annular groove.

Preferably, the heat exchange tube assembly comprises an arch-shaped tube and a first heat exchange bin, the first heat exchange bin is installed at the top of the outer side of the stirring and mixing bin, the arch-shaped tube is arranged inside the first heat exchange bin, and one end of the arch-shaped tube penetrates through the first heat exchange bin and is communicated with a second liquid inlet pump assembly;

the second feed liquor pump assembly comprises an L-shaped conduit of a first feed liquor pump, the first feed liquor pump is installed at one side of the top of the stirring mixing bin, one end of the first feed liquor pump is communicated with the end of the arch-shaped pipe, the other end of the first feed liquor pump is communicated with the L-shaped conduit, and the other end of the conduit penetrates through the stirring mixing bin and is communicated with the annular groove.

Preferably, assist and shake the subassembly and include side fixed plate and vibrations spring, filter the inner wall both sides of storehouse and install side fixed plate at the equidistant, and the top of side fixed plate installs the vibrations spring, and the filter screen subassembly is installed at the top of vibrations spring.

Preferably, the filter screen assembly comprises a side vibration frame, a filter screen plate and a cross bayonet, the top of the vibration spring is provided with the side vibration frame, the inner side of the side vibration frame is provided with the filter screen plate, and the cross bayonet is formed in the side vibration frame;

the special-shaped wheel transmission assembly comprises a vibration rotating rod, a special-shaped wheel, a collision block, an ejector rod and a collision piece, the inner bottom of the filter bin is provided with the vibration rotating rod in a penetrating mode, the two ends of the vibration rotating rod are provided with the special-shaped wheel, the inner side of the cross bayonet is provided with the ejector rod in a penetrating mode, the outer side of the ejector rod is located inside the cross bayonet and provided with the collision piece, the bottom of the ejector rod is provided with the collision block, and the special-shaped wheel is matched with the collision block.

Preferably, the driving assembly comprises a linkage motor, a second bevel gear and a fifth bevel gear, the linkage motor is installed on one side of the top of the side bottom plate, the output end of the linkage motor is fixed with the end of the vibrating rotating rod, the second bevel gear is installed at the outer side end of the vibrating rotating rod, the fifth bevel gear is meshed with the outer side of the second bevel gear, and a transmission rod assembly is arranged on the fifth bevel gear;

the transmission rod assembly comprises a second transmission rod, a U-shaped frame and a second bevel gear, the top of the first bevel gear penetrates through the second transmission rod, the second transmission rod is close to the filtration bin and is provided with an European U-shaped frame, the U-shaped frame is provided with a cleaning rod assembly, the cleaning rod assembly is matched with the filtration screen plate, and the second bevel gear is installed at the top of the second transmission rod.

Preferably, the bevel gear transmission component comprises a first transmission rod, a sixth bevel gear, a fourth bevel gear, a third bevel gear and a support plate, the support plate is installed on one side of the top of the stirring and mixing bin, the first transmission rod penetrates through the support plate, the sixth bevel gear is installed at one end of the first transmission rod and is meshed with the second bevel gear, the fourth bevel gear is installed at the other end of the first transmission rod, the third bevel gear is installed at the top of the outer side of the rotary liquid feeding pipe, and the third bevel gear is meshed with the fourth bevel gear;

the cleaning rod assembly comprises a push rod, a cleaning block, a third limiting spring, a connecting bearing and a side notch, the connecting bearing is sleeved in the middle of the end of the U-shaped frame, the side notch is formed in the middle of the side of the connecting bearing, the third limiting spring is installed at the inner bottom of the side notch, the push rod is installed at the top of the third limiting spring and penetrates through the filter bin, the cleaning block is installed at the other end of the filter bin, and a brush is paved at the bottom of the cleaning block;

the middle part of the bottom of the filtering bin is communicated with a second liquid outlet valve, and supporting legs are installed at four corners of the bottom of the filtering bin.

A processing method of processing equipment for processing and producing nicotine salt comprises the following steps:

step 1: starting the electric heater to drive the electric heating plate to operate, and heating the interior of the stirring and mixing bin through the electric heating plate;

step 2: different raw materials can be poured into the first raw material through the conical feeding cover respectively, enter the first aluminum alloy liquid guide pipe through the rotating liquid feeding pipe, extrude the first one-way valve through the first aluminum alloy liquid guide pipe and enable the raw materials to enter the stirring and mixing bin by pushing open the first one-way valve;

and step 3: adding a second raw material through a second liquid inlet pump, enabling the second raw material to enter the second heat exchange bin, enabling the second raw material to enter a second aluminum alloy liquid guide pipe through the second heat exchange bin, opening a second one-way valve through the second aluminum alloy liquid guide pipe, and pushing the second one-way valve to enable the second raw material to enter the stirring and mixing bin;

and 4, step 4: the other end of the arch-shaped pipe is communicated with the three raw material storage bins, then the first liquid inlet pump is started to pump the three raw materials into the arch-shaped pipe, the three raw materials are preheated, then enter the spraying disc through the first liquid inlet pump, and then are sprayed into the stirring and mixing bin through the spraying head;

and 5: the linkage motor is started to drive the vibration rotating rod to rotate, the vibration rotating rod drives the special-shaped wheel to rotate, the special-shaped wheel impacts the impact block to drive the ejector rod, the ejector rod of the special-shaped wheel impacts the cross bayonet, and the cross bayonet impacts the side vibration frame to drive the filter screen plate to vibrate;

step 6: the second bevel gear is driven to move through the rotation of the vibrating rotating rod, the fifth bevel gear is driven to rotate through the second bevel gear, the second transmission rod is driven to rotate through the fifth bevel gear, and the second bevel gear is driven to rotate through the second transmission rod;

and 7: the second bevel gear drives the sixth bevel gear to rotate, the sixth bevel gear drives the first transmission rod to rotate, the first transmission rod drives the fourth bevel gear to rotate, the fourth bevel gear drives the third bevel gear to rotate, the third bevel gear drives the rotary liquid feeding pipe to rotate, and the rotary liquid feeding pipe is used for stirring and mixing the raw materials in the stirring and mixing bin;

and 8: the connecting bearing is driven to rotate through the rotation of the U-shaped frame, the push rod is pushed through the connecting bearing, and the cleaning block is pushed through the push rod to move back and forth to perform friction cleaning on the top of the filter screen plate;

and step 9: the raw materials can be mixed in the stirring and mixing bin firstly and then enter the filtering bin through the first liquid outlet valve for filtering, and new raw material components are added for mixing in the stirring and mixing bin, so that the mixing and the filtering are formed in a circulating mode and are carried out synchronously.

The invention has the beneficial technical effects that:

the invention provides a processing device and a processing method for processing and producing nicotine salt, wherein an electric heater is started to drive an electric heating plate to operate, the interior of a stirring and mixing bin is heated through the electric heating plate, different raw materials can be poured into a first raw material through a conical feeding cover respectively, the different raw materials enter a first aluminum alloy liquid guide pipe through a rotating liquid feeding pipe, the first aluminum alloy liquid guide pipe extrudes a first one-way valve and pushes the raw materials to enter the stirring and mixing bin by pushing open the first one-way valve, a second raw material is added through a second liquid feeding pump and enters a second heat exchange bin, the raw materials enter a second aluminum alloy liquid guide pipe through the interior of the second heat exchange bin, the second one-way valve is opened through the second aluminum alloy liquid guide pipe, the second raw material is pushed to enter the stirring and mixing bin by pushing the second one-way valve, the other end of an arch-shaped pipe is communicated with a raw material three storage bin, then a first liquid feeding pump is started to pump the raw materials to be pumped into the interior of the arch-shaped pipe to be firstly processed, then enters a spraying disc through a first liquid inlet pump, is sprayed into the stirring and mixing bin through a spraying head, starts a linkage motor to drive a vibrating rotating rod to rotate, drives a special-shaped wheel to rotate through the vibrating rotating rod, drives a mandril through a special-shaped wheel impact block to impact the mandril to the cross-shaped bayonet, drives a filter screen plate to vibrate through a cross-shaped bayonet impact side vibrating frame, drives a second bevel gear to move through the rotation of the vibrating rotating rod, drives a fifth bevel gear to rotate through the second bevel gear, drives a second transmission rod to rotate through the fifth bevel gear, drives the second bevel gear to rotate through a second transmission rod, drives a sixth bevel gear to rotate through the second bevel gear, drives a first transmission rod to rotate through the sixth bevel gear, drives a fourth bevel gear to rotate through the first transmission rod, drives a third bevel gear to rotate through the fourth bevel gear, and drives a rotary liquid feeding pipe to rotate through the third bevel gear, and then stir the raw materials of mixing the inside storehouse through rotatory liquid feeding pipe and mix, rotation through U type frame, drive and connect the bearing and rotate, promote the push rod through connecting the bearing, promote clearance piece back and forth movement through the push rod and carry out the friction clearance to filtering the otter board top, the raw materials can stir earlier again and mix in the storehouse mix back rethread first play liquid valve get into to filter in the storehouse and filter simultaneously add new raw materials component and mix in the storehouse is mixed in the stirring, form to mix with this circulation and filter and go on in step.

Drawings

FIG. 1 is a side cross-sectional view of the entire apparatus of a preferred embodiment of a nicotine salt processing apparatus and method according to the present invention;

FIG. 2 is a schematic illustration of a linkage rod assembly of a preferred embodiment of a nicotine salt processing apparatus and method according to the present invention;

FIG. 3 is an enlarged view of the structure at b of a preferred embodiment of the processing equipment and method for processing and producing nicotine salt according to the present invention;

FIG. 4 is a schematic diagram of a filter assembly of a preferred embodiment of a nicotine salt manufacturing process apparatus and method according to the present invention;

FIG. 5 is an enlarged view of the structure at position c of a preferred embodiment of a nicotine salt processing apparatus and method according to the present invention;

FIG. 6 is a schematic diagram of the stirring assembly of a preferred embodiment of a nicotine salt processing apparatus and method according to the present invention;

FIG. 7 is an enlarged view of the structure at d of a preferred embodiment of a nicotine salt processing apparatus and method according to the present invention;

FIG. 8 is an enlarged view of the structure at a point a of a preferred embodiment of a nicotine salt processing apparatus and method according to the present invention;

fig. 9 is an enlarged view of the structure at e of a preferred embodiment of the processing equipment and the processing method for processing and producing nicotine salt according to the invention.

In the figure: 1-stirring mixing bin, 2-electric heating plate, 3-first transmission rod, 4-side bottom plate, 5-first heat exchange bin, 6-bow-shaped tube, 7-electric heater, 8-second heat exchange bin, 9-liquid guide tube, 11-second liquid inlet pump, 12-second aluminum alloy liquid guide tube, 13-filtering bin, 14-filtering screen plate, 15-vibrating rotating rod, 16-supporting leg, 17-second transmission rod, 18-push rod, 19-ejector rod, 20-liquid separating cover body, 21-rotating liquid feeding tube, 22-first aluminum alloy liquid guide tube, 23-first liquid outlet valve, 24-I-shaped connecting leg, 25-U-shaped frame, 26-cleaning block, 27-first bevel gear, 28-second bevel gear and 29-connecting bearing, 30-side groove opening, 31-third limiting spring, 32-impact block, 33-vibration spring, 34-side fixing plate, 35-special-shaped wheel, 36-second liquid outlet valve, 37-side vibration frame, 38-cross bayonet, 39-impact sheet, 40-cone-shaped feeding cover, 41-first liquid inlet pump, 42-spraying head, 43-spraying disc, 44-second one-way valve, 45-first one-way valve, 46-second limiting spring, 47-first limiting spring, 48-third bevel gear, 49-fourth bevel gear, 50-supporting plate, 51-fifth bevel gear, 52-linkage motor and 53-sixth bevel gear.

Detailed Description

In order to make the technical solutions of the present invention more clear and definite for those skilled in the art, the present invention is further described in detail below with reference to the examples and the accompanying drawings, but the embodiments of the present invention are not limited thereto.

As shown in fig. 1-9, the processing apparatus for nicotine salt processing and production provided in this embodiment includes a stirring and mixing chamber 1, wherein two sides of the bottom of the stirring and mixing chamber 1 are provided with a filtering chamber 13 through an i-shaped connecting leg 24, an electric heating assembly is disposed on the inner layer of the stirring and mixing chamber 1, a rotating liquid feeding pipe 21 is disposed in the middle of the inner top of the stirring and mixing chamber 1 through a bearing, a conical feeding cover 40 is communicated with the top of the rotating liquid feeding pipe 21, first material guiding pipe assemblies are disposed in the stirring and mixing chamber 1 and on the outer side of the rotating liquid feeding pipe 21 at equal intervals, a second material guiding pipe assembly is disposed through the inner wall of the stirring and mixing chamber 1, the second material guiding pipe assemblies and the first material guiding pipe assemblies are distributed in a staggered manner, a second heat exchanging chamber 8 is sleeved under the outer side of the stirring and mixing chamber 1, the second heat exchanging chamber 8 is communicated with the first material guiding pipe assemblies, a first liquid inlet communicated with the interior of the second heat exchanging chamber 8 is disposed on the top of the second heat exchanging chamber 8, a spray disc component is arranged outside the conical feeding cover 40 and above the inner part of the stirring and mixing bin 1, a heat exchange tube component is arranged above the outer side of the stirring and mixing bin 1 and is communicated with the spray disc component through a second liquid inlet pump component, a liquid separating cover body 20 is arranged outside the rotary liquid adding tube 21 and below the spray disc component, the middle part of the bottom of the stirring and mixing bin 1 is communicated with a first liquid outlet valve 23, two sides of the bottom of the stirring and mixing bin 1 are provided with a filter bin 13 through I-shaped connecting legs 24, the bottom of the first liquid outlet valve 23 is communicated with the middle part of the top of the filter bin 13, two ends of the inner side of the filter bin 13 are provided with auxiliary vibration components, the auxiliary vibration components are provided with filter screen components, two sides of the filter screen components and the inner bottom of the filter bin 13 are provided with special-shaped wheel transmission components for driving the filter screen components to vibrate, and the bottom of the outer side of the filter bin 13 is provided with a side bottom plate 4, the top of the side bottom plate 4 is provided with a driving component which is respectively connected with a bevel gear driving component which can drive the rotary liquid feeding pipe 21 to rotate and a cleaning rod component which can clean the filter screen component through a transmission rod component.

Starting the electric heater 7 to drive the electric heating plate 2 to operate, heating the interior of the stirring mixing bin 1 through the electric heating plate 2, pouring different raw materials into the first raw material through the conical feeding cover 40, feeding the first raw material into the first aluminum alloy liquid guide pipe 22 through the rotating liquid feeding pipe 21, extruding the first one-way valve 45 through the first aluminum alloy liquid guide pipe 22, feeding the raw materials into the stirring mixing bin 1 by pushing open the first one-way valve 45, feeding the second raw material into the second heat exchange bin 8 through the second liquid feeding pump 11, feeding the second raw material into the second aluminum alloy liquid guide pipe 12 through the second heat exchange bin 8, opening the second one-way valve 44 through the second aluminum alloy liquid guide pipe 12, pushing the second one-way valve 44 to feed the second raw material into the stirring mixing bin 1, communicating the other end of the arch-shaped pipe 6 with the third raw material storage bin, then starting the first liquid feeding pump 41 to pump the third raw material into the interior of the arch-shaped pipe 6 for preheating, then enters a spraying disc 43 through a first liquid inlet pump 41, is sprayed into the stirring and mixing bin 1 through a spraying head 42, starts a linkage motor 52 to drive a vibration rotating rod 15 to rotate, drives a special-shaped wheel 35 to rotate through the vibration rotating rod 15, drives a mandril 19 through a striking block 32 struck by the special-shaped wheel 35, causes the mandril 19 to strike a cross-shaped bayonet 38, drives a filter screen plate 14 to vibrate through a side vibration frame 37 struck by the cross-shaped bayonet 38, drives a second bevel gear 28 to move through the rotation of the vibration rotating rod 15, drives a fifth bevel gear 51 to rotate through the second bevel gear 28, drives a second transmission rod 17 to rotate through the fifth bevel gear 51, drives the second bevel gear 28 to rotate through the second bevel gear 17, drives a sixth bevel gear 53 to rotate through the second bevel gear 28, drives a first transmission rod 3 to rotate through the sixth bevel gear 53, and drives a fourth bevel gear 49 to rotate through the first transmission rod 3, drive third bevel gear 48 through fourth bevel gear 49 and rotate, it rotates to drive rotatory liquid feeding pipe 21 through third bevel gear 48, and then stir the raw materials of mixing storehouse 1 inside through rotatory liquid feeding pipe 21 and mix, through the rotation of U type frame 25, it rotates to drive connecting bearing 29, promote push rod 18 through connecting bearing 29, promote clearance piece 26 round trip movement through push rod 18 and carry out the friction clearance to filtering screen plate 14 top, the raw materials can stir earlier again and mix in the storehouse 1 and mix the back rethread liquid valve 23 and get into to filter storehouse 13 and filter and add new raw materials component and mix in stirring mixing storehouse 1 simultaneously, form to mix with filtering synchronous going on with this circulation.

In this embodiment, the electric heating assembly includes an electric heating plate 2 and an electric heater 7, the electric heating plate 2 is disposed on the inner layer of the stirring and mixing bin 1, the electric heater 7 is installed above the outer side of the stirring and mixing bin 1, and the electric heater 7 is electrically connected with the electric heating plate 2 through a wire;

the electric heater 7 is started to drive the electric heating plate 2 to operate, and the inside of the stirring and mixing bin 1 is heated through the electric heating plate 2.

The first guide pipe component comprises a first aluminum alloy liquid guide pipe 22, a first one-way valve 45 and a second limiting spring 46, a plurality of groups of first aluminum alloy liquid guide pipes 22 are communicated with the lower part of the outer side of the rotary liquid feeding pipe 21 at equal intervals, the first one-way valve 45 is plugged into the inner port of the first aluminum alloy liquid guide pipe 22, the second limiting spring 46 is installed between the first one-way valve 45 and the first aluminum alloy liquid guide pipe 22, the second guide pipe component comprises a second aluminum alloy liquid guide pipe 12, a first limiting spring 47 and a second one-way valve 44, the lower part in the stirring mixing bin 1 is communicated with the second aluminum alloy liquid guide pipe 12, the inner end of the second aluminum alloy liquid guide pipe 12 is plugged into the second one-way valve 44, the first limiting spring 47 is installed between the second one-way valve 44 and the second aluminum alloy liquid guide pipe 12, the other end of the second aluminum alloy liquid guide pipe 12 penetrates through the stirring mixing bin 1 to be communicated with the interior of the second heat exchange bin 8, the first liquid inlet pump component comprises a second liquid inlet pump 11 and a liquid guide pipe 9, the top of the second heat exchange bin 8 is communicated with the second liquid inlet pump 11, the other end of the second liquid inlet pump 11 is communicated with the liquid guide pipe 9, the spraying disc component comprises a spraying disc 43, a spraying head 42 and an annular groove, the spraying disc 43 is arranged outside the rotary liquid adding pipe 21 and inside the stirring and mixing bin 1, the spraying head 42 is communicated with the bottom of the spraying disc 43 at equal intervals, the annular groove is formed in the top of the spraying disc 43 by taking the axial direction of the rotary liquid adding pipe 21 as the center, the second liquid inlet pump component is communicated with the annular groove, the heat exchange pipe component comprises an arch-shaped pipe 6 and a first heat exchange bin 5, the first heat exchange bin 5 is arranged at the top outside the stirring and mixing bin 1, the arch-shaped pipe 6 is arranged inside the first heat exchange bin 5, one end of the arch-shaped pipe 6 penetrates through the first heat exchange bin 5 and is communicated with a second liquid inlet pump component, the second liquid inlet pump component comprises an L-shaped guide pipe of the first liquid inlet pump 41, the first liquid inlet pump 41 is installed at one side of the top of the stirring and mixing bin 1, one end of the first liquid inlet pump 41 is communicated with the end of the bow-shaped pipe 6, the other end of the first liquid inlet pump 41 is communicated with an L-shaped pipe, and the other end of the pipe penetrates through the stirring and mixing bin 1 and is communicated with the annular groove.

Different raw materials can be respectively poured into the raw material I through the conical feeding cover 40 and enter the first aluminum alloy liquid guide pipe 22 through the rotating liquid feeding pipe 21, the first one-way valve 45 is extruded by the first aluminum alloy liquid guide pipe 22 and the raw materials enter the stirring and mixing bin 1 by pushing away the first one-way valve 45, a second raw material is added through a second liquid inlet pump 11 and enters the second heat exchange bin 8, enters the second aluminum alloy liquid guide pipe 12 through the inside of the second heat exchange bin 8, opens the second one-way valve 44 through the second aluminum alloy liquid guide pipe 12, pushes the second one-way valve 44 to enable the second raw material to enter the stirring and mixing bin 1, and communicates the other end of the arch pipe 6 with the three raw material storage bins, then the first liquid inlet pump 41 is started to pump the raw material three into the interior of the bow-shaped pipe 6 for preheating, then enters the spraying disc 43 through the first liquid inlet pump 41 and is sprayed into the stirring and mixing bin 1 through the spraying head 42.

In this embodiment, the auxiliary vibration component includes a side fixing plate 34 and a vibration spring 33, the side fixing plate 34 is installed on two sides of the inner wall of the filter bin 13 at equal intervals, the vibration spring 33 is installed on the top of the side fixing plate 34, the filter screen component is installed on the top of the vibration spring 33, the filter screen component includes a side vibration frame 37, a filter screen plate 14 and a cross-shaped bayonet 38, the side vibration frame 37 is installed on the top of the vibration spring 33, the filter screen plate 14 is installed on the inner side of the side vibration frame 37, the cross-shaped bayonet 38 is installed on the side vibration frame 37, the special-shaped wheel transmission component includes a vibration rotating rod 15, a special-shaped wheel 35, a collision block 32, a top rod 19 and a collision sheet 39, the vibration rotating rod 15 penetrates through the inner bottom of the filter bin 13, the special-shaped wheels 35 are installed on two ends of the vibration rotating rod 15, the top rod 19 penetrates through the inner side of the cross-shaped bayonet 38, and the collision sheet 39 is installed on the outer side of the top rod 19 and located inside the cross-shaped bayonet 38, the bottom of the ejector rod 19 is provided with an impact block 32, the special-shaped wheel 35 is matched with the impact block 32, the driving assembly comprises a linkage motor 52, a second bevel gear 28 and a fifth bevel gear 51, one side of the top of the side bottom plate 4 is provided with the linkage motor 52, the output end of the linkage motor 52 is fixed with the end part of the vibration rotating rod 15, the outer side end part of the vibration rotating rod 15 is provided with the second bevel gear 28, the outer side of the second bevel gear 28 is engaged with the fifth bevel gear 51, the fifth bevel gear 51 is provided with a transmission rod assembly, the transmission rod assembly comprises a second transmission rod 17, a U-shaped frame 25 and a second bevel gear 28, the top of the first bevel gear 27 is provided with a second transmission rod 17 in a penetrating way, the second transmission rod 17 is provided with a European U-shaped frame 25 close to the filter bin 13, the U-shaped frame 25 is provided with a cleaning rod assembly, the cleaning rod assembly is matched with the filter screen plate 14, the top of the second transmission rod 17 is provided with the second bevel gear 28, the bevel gear transmission component comprises a first transmission rod 3, a sixth bevel gear 53, a fourth bevel gear 49, a third bevel gear 48 and a support plate 50, the support plate 50 is installed on one side of the top of the stirring and mixing bin 1, the first transmission rod 3 penetrates through the support plate 50, the sixth bevel gear 53 is installed at one end of the first transmission rod 3, the sixth bevel gear 53 is meshed with the second bevel gear 28, the fourth bevel gear 49 is installed at the other end of the first transmission rod 3, the third bevel gear 48 is installed at the top of the outer side of the rotary liquid adding pipe 21, the third bevel gear 48 is meshed with the fourth bevel gear 49, the cleaning rod component comprises a push rod 18, a cleaning block 26, a third limiting spring 31, a connecting bearing 29 and a side notch 30, a connecting bearing 29 is sleeved at the middle part of the end of the U-shaped frame 25, a side notch 30 is formed in the middle part of the side of the connecting bearing 29, and the third limiting spring 31 is installed at the inner bottom part of the side notch 30, push rod 18 is installed at the top of third spacing spring 31, and push rod 18 runs through and strains storehouse 13, and the other end of straining storehouse 13 is installed clearance piece 26, and the brush has been laid to the bottom of clearance piece 26, and the end middle part intercommunication that filters storehouse 13 has second liquid valve 36, and the bottom four corners department that filters storehouse 13 installs supporting leg 16.

Starting a linkage motor 52 to drive a vibrating rotating rod 15 to rotate, driving a special-shaped wheel 35 to rotate through the vibrating rotating rod 15, driving a mandril 19 through the striking block 32 struck by the special-shaped wheel 35, causing the mandril 19 to strike the cross-shaped bayonet 38, driving the filter screen plate 14 to vibrate through the cross-shaped bayonet 38 striking the side vibrating frame 37, driving a second bevel gear 28 to move through the rotating of the vibrating rotating rod 15, driving a fifth bevel gear 51 to rotate through the second bevel gear 28, driving a second transmission rod 17 to rotate through the fifth bevel gear 51, driving the second bevel gear 28 to rotate through the second transmission rod 17, driving a sixth bevel gear 53 to rotate through the second bevel gear 28, driving a first transmission rod 3 to rotate through the sixth bevel gear 53, driving a fourth bevel gear 49 to rotate through the first transmission rod 3, driving a third bevel gear 48 to rotate through the fourth bevel gear 49, and driving a rotary liquid feeding pipe 21 to rotate through the third bevel gear 48, and then stir the raw materials of mixing storehouse 1 inside through rotatory liquid feeding pipe 21 and mix, through the rotation of U type frame 25, drive connection bearing 29 and rotate, promote push rod 18 through connection bearing 29, promote clearance piece 26 back and forth movement through push rod 18 and rub the clearance to filtering screen plate 14 top, the raw materials can stir earlier again and mix in the storehouse 1 and mix afterwards rethread first play liquid valve 23 and get into to filter storehouse 13 in and filter simultaneously add new raw materials component and mix in stirring and mixing storehouse 1, form to mix with this circulation and filter and go on in step.

step 1: starting the electric heater 7 to drive the electric heating plate 2 to operate, and heating the interior of the stirring and mixing bin 1 through the electric heating plate 2;

step 2: different raw materials can be respectively poured into the first raw material through the conical feeding cover 40, enter the first aluminum alloy liquid guide pipe 22 through the rotating liquid feeding pipe 21, extrude the first one-way valve 45 through the first aluminum alloy liquid guide pipe 22 and enable the raw materials to enter the stirring and mixing bin 1 by pushing open the first one-way valve 45;

and step 3: adding a second raw material through a second liquid inlet pump 11, enabling the second raw material to enter the second heat exchange bin 8, enter a second aluminum alloy liquid guide pipe 12 through the second heat exchange bin 8, opening a second one-way valve 44 through the second aluminum alloy liquid guide pipe 12, and pushing the second one-way valve 44 to enable the second raw material to enter the stirring and mixing bin 1;

and 4, step 4: the other end of the arch-shaped pipe 6 is communicated with the three raw material storage bins, then the first liquid inlet pump 41 is started to pump the three raw materials into the arch-shaped pipe 6 for preheating, then the three raw materials enter the spraying disc 43 through the first liquid inlet pump 41, and then the three raw materials are sprayed into the stirring and mixing bin 1 through the spraying head 42;

and 5: the linkage motor 52 is started to drive the vibration rotating rod 15 to rotate, the vibration rotating rod 15 drives the special-shaped wheel 35 to rotate, the special-shaped wheel 35 impacts the impact block 32 to drive the ejector rod 19, the ejector rod 19 impacts the cross bayonet 38, and the cross bayonet 38 impacts the side vibration frame 37 to drive the filter screen plate 14 to vibrate;

step 6: the second bevel gear 28 is driven to move by the rotation of the vibrating rotating rod 15, the fifth bevel gear 51 is driven to rotate by the second bevel gear 28, the second transmission rod 17 is driven to rotate by the fifth bevel gear 51, and the second bevel gear 28 is driven to rotate by the second transmission rod 17;

and 7: the sixth bevel gear 53 is driven to rotate through the second bevel gear 28, the first transmission rod 3 is driven to rotate through the sixth bevel gear 53, the fourth bevel gear 49 is driven to rotate through the first transmission rod 3, the third bevel gear 48 is driven to rotate through the fourth bevel gear 49, the rotary liquid feeding pipe 21 is driven to rotate through the third bevel gear 48, and then the raw materials in the stirring and mixing bin 1 are stirred and mixed through the rotary liquid feeding pipe 21;

and 8: the U-shaped frame 25 rotates to drive the connecting bearing 29 to rotate, the push rod 18 is pushed through the connecting bearing 29, and the cleaning block 26 is pushed through the push rod 18 to move back and forth to perform friction cleaning on the top of the filter screen plate 14;

and step 9: the raw materials can be mixed in the stirring and mixing bin 1 and then enter the filtering bin 13 through the first liquid outlet valve 23 for filtering, and new raw material components are added to be mixed in the stirring and mixing bin 1, so that the mixing and the filtering are formed in a circulating mode and are performed synchronously.

The above are only further embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution of the present invention and its concept within the scope of the present invention.

Claims

1. A processing equipment for nicotine salt processing production is characterized in that: comprises a stirring and mixing bin (1), wherein both sides of the bottom of the stirring and mixing bin (1) are provided with a filtering bin (13) through I-shaped connecting legs (24), the inner layer of the stirring and mixing bin (1) is provided with an electric heating component, the middle part of the inner top of the stirring and mixing bin (1) is provided with a rotary liquid feeding pipe (21) through a bearing, the top of the rotary liquid feeding pipe (21) is communicated with a conical feeding cover (40), the inside of the stirring and mixing bin (1) is provided with first liquid feeding pipe components at equal intervals on the outer side of the rotary liquid feeding pipe (21), the inner wall of the stirring and mixing bin (1) is provided with a second liquid feeding pipe component in a penetrating way, the second liquid feeding pipe components and the first liquid feeding pipe components are distributed in a staggered way, a second heat exchange bin (8) is sleeved under the outer side of the stirring and mixing bin (1), the second heat exchange bin (8) is communicated with the first liquid feeding pipe components, the top of the second heat exchange bin (8) is provided with a first liquid inlet component communicated with the inside of the second heat exchange bin (8), a spray tray component is arranged on the outer side of the conical feeding cover (40) and above the inner part of the stirring and mixing bin (1), a heat exchange tube component is arranged above the outer side of the stirring and mixing bin (1) and is communicated with the spray tray component through a second liquid inlet pump component, a liquid separating cover body (20) is arranged on the outer side of the rotary liquid adding tube (21) and below the spray tray component, the middle part of the bottom of the stirring and mixing bin (1) is communicated with a first liquid outlet valve (23), two sides of the bottom of the stirring and mixing bin (1) are provided with a filter bin (13) through I-shaped connecting legs (24), the bottom of the first liquid outlet valve (23) is communicated with the middle part of the top of the filter bin (13), auxiliary vibration components are arranged at two ends of the inner side of the filter bin (13), filter screen components are arranged on the auxiliary vibration components, special-shaped wheel transmission components for driving the filter screen components to vibrate are arranged on two sides of the filter screen components and the inner bottom of the filter bin (13), side bottom plate (4) are installed to the bottom in filter storehouse (13) outside, and drive assembly is installed at the top of side bottom plate (4), and this drive assembly is connected with the bevel gear drive assembly that can drive rotatory liquid feeding pipe (21) rotation and carries out the clearance pole subassembly of clearing up to the filter screen subassembly respectively through transfer line subassembly.

2. The apparatus of claim 1, wherein the apparatus comprises: the electric heating assembly comprises an electric heating plate (2) and an electric heater (7), the electric heating plate (2) is arranged on the inner layer of the stirring and mixing bin (1), the electric heater (7) is arranged above the outer side of the stirring and mixing bin (1), and the electric heater (7) is electrically connected with the electric heating plate (2) through a lead;

the first material guide pipe assembly comprises a first aluminum alloy liquid guide pipe (22), a first one-way valve (45) and a second limiting spring (46), a plurality of groups of first aluminum alloy liquid guide pipes (22) are communicated with the lower portion of the outer side of the rotary liquid feeding pipe (21) at equal intervals, the inner port of each first aluminum alloy liquid guide pipe (22) is plugged with the corresponding first one-way valve (45), and the second limiting spring (46) is installed between the corresponding first one-way valve (45) and the corresponding first aluminum alloy liquid guide pipe (22).

3. A processing apparatus for processing and producing nicotine salt according to claim 2, further comprising: the second material guide pipe assembly comprises a second aluminum alloy liquid guide pipe (12), a first limiting spring (47) and a second one-way valve (44), the second aluminum alloy liquid guide pipe (12) is communicated with the lower portion of the interior of the stirring mixing bin (1), the second one-way valve (44) is plugged into the inner end portion of the second aluminum alloy liquid guide pipe (12), the first limiting spring (47) is installed between the second one-way valve (44) and the second aluminum alloy liquid guide pipe (12), and the other end of the second aluminum alloy liquid guide pipe (12) penetrates through the stirring mixing bin (1) and is communicated with the interior of the second heat exchange bin (8);

the first liquid inlet pump assembly comprises a second liquid inlet pump (11) and a liquid guide pipe (9), the top of the second heat exchange bin (8) is communicated with the second liquid inlet pump (11), and the other end of the second liquid inlet pump (11) is communicated with the liquid guide pipe (9).

4. A processing apparatus for processing and producing nicotine salt according to claim 3, further comprising: the spraying disc assembly comprises a spraying disc (43), spraying heads (42) and an annular groove, the spraying disc (43) is installed on the outer side of the rotary liquid feeding pipe (21) and located inside the stirring and mixing bin (1), the spraying heads (42) are communicated with the bottom of the spraying disc (43) at equal intervals, the annular groove is formed in the top of the spraying disc (43) by taking the rotary liquid feeding pipe (21) as the center, and the second liquid feeding pump assembly is communicated with the annular groove.

5. A processing apparatus for processing and producing nicotine salt according to claim 4, wherein: the heat exchange tube component comprises an arch-shaped tube (6) and a first heat exchange bin (5), the first heat exchange bin (5) is installed at the top of the outer side of the stirring and mixing bin (1), the arch-shaped tube (6) is arranged inside the first heat exchange bin (5), and one end of the arch-shaped tube (6) penetrates through the first heat exchange bin (5) and is communicated with a second liquid inlet pump component;

the second feed liquor pump assembly comprises an L-shaped conduit of a first feed liquor pump (41), the first feed liquor pump (41) is installed at one side of the top of the stirring mixing bin (1), one end of the first feed liquor pump (41) is communicated with the end of the arch-shaped pipe (6), the other end of the first feed liquor pump (41) is communicated with the L-shaped conduit, and the other end of the conduit penetrates through the stirring mixing bin (1) and is communicated with the annular groove.

6. A processing apparatus for processing and producing nicotine salt according to claim 5, wherein: the auxiliary vibration component comprises a side fixing plate (34) and a vibration spring (33), the side fixing plate (34) is installed on two sides of the inner wall of the filter bin (13) at equal intervals, the vibration spring (33) is installed on the top of the side fixing plate (34), and the filter screen component is installed on the top of the vibration spring (33).

7. The apparatus of claim 6, wherein the apparatus comprises: the filter screen assembly comprises a side vibration frame (37), a filter screen plate (14) and a cross bayonet (38), the side vibration frame (37) is installed at the top of the vibration spring (33), the filter screen plate (14) is installed on the inner side of the side vibration frame (37), and the cross bayonet (38) is formed in the side vibration frame (37);

the special-shaped wheel transmission assembly comprises a vibration rotating rod (15), a special-shaped wheel (35), an impact block (32), a push rod (19) and an impact piece (39), the inner bottom of the filter bin (13) is provided with the vibration rotating rod (15) in a penetrating mode, the special-shaped wheel (35) is installed at the two ends of the vibration rotating rod (15), the push rod (19) is arranged on the inner side of the cross-shaped bayonet (38) in a penetrating mode, the impact piece (39) is installed on the outer side of the push rod (19) and located inside the cross-shaped bayonet (38), the impact block (32) is installed at the bottom of the push rod (19), and the special-shaped wheel (35) is matched with the impact block (32) mutually.

8. The apparatus of claim 7, wherein the apparatus comprises: the driving assembly comprises a linkage motor (52), a second bevel gear (28) and a fifth bevel gear (51), the linkage motor (52) is installed on one side of the top of the side base plate (4), the output end of the linkage motor (52) is fixed with the end of the vibration rotating rod (15), the second bevel gear (28) is installed at the outer side end of the vibration rotating rod (15), the fifth bevel gear (51) is meshed with the outer side of the second bevel gear (28), and a transmission rod assembly is arranged on the fifth bevel gear (51);

the transmission rod assembly comprises a second transmission rod (17), a U-shaped frame (25) and a second bevel gear (28), the top of the first bevel gear (27) penetrates through the second transmission rod (17), the second transmission rod (17) is close to the filtration bin (13) and is provided with the European U-shaped frame (25), the U-shaped frame (25) is provided with a cleaning rod assembly, the cleaning rod assembly is matched with the filtration screen plate (14), and the second bevel gear (28) is installed at the top of the second transmission rod (17).

9. The apparatus of claim 8, wherein the apparatus comprises: the bevel gear transmission assembly comprises a first transmission rod (3), a sixth bevel gear (53), a fourth bevel gear (49), a third bevel gear (48) and a support plate (50), the support plate (50) is installed on one side of the top of the stirring mixing bin (1), the first transmission rod (3) penetrates through the support plate (50), the sixth bevel gear (53) is installed at one end of the first transmission rod (3), the sixth bevel gear (53) is meshed with the second bevel gear (28), the fourth bevel gear (49) is installed at the other end of the first transmission rod (3), the third bevel gear (48) is installed at the top of the outer side of the rotary liquid adding pipe (21), and the third bevel gear (48) is meshed with the fourth bevel gear (49);

the cleaning rod assembly comprises a push rod (18), a cleaning block (26), a third limiting spring (31), a connecting bearing (29) and a side notch (30), the connecting bearing (29) is sleeved in the middle of the end of the U-shaped frame (25), the side notch (30) is formed in the middle of the side of the connecting bearing (29), the third limiting spring (31) is installed at the inner bottom of the side notch (30), the push rod (18) is installed at the top of the third limiting spring (31), the push rod (18) penetrates through the filter bin (13), the cleaning block (26) is installed at the other end of the filter bin (13), and a brush is paved at the bottom of the cleaning block (26);

the middle part of the bottom of the filtering bin (13) is communicated with a second liquid outlet valve (36), and supporting legs (16) are arranged at the four corners of the bottom of the filtering bin (13).

10. The method of claim 9, wherein the processing equipment comprises: the method comprises the following steps:

step 1: starting the electric heater (7) to drive the electric heating plate (2) to operate, and heating the interior of the stirring and mixing bin (1) through the electric heating plate (2);

step 2: different raw materials can be respectively poured into the first raw material through the conical feeding cover (40), and enter the first aluminum alloy liquid guide pipe (22) through the rotating liquid feeding pipe (21), the first one-way valve (45) is extruded through the first aluminum alloy liquid guide pipe (22), and the raw materials enter the stirring and mixing bin (1) by pushing open the first one-way valve (45);

and step 3: adding a second raw material through a second liquid inlet pump (11), enabling the second raw material to enter the second heat exchange bin (8), enabling the second raw material to enter a second aluminum alloy liquid guide pipe (12) through the interior of the second heat exchange bin (8), opening a second one-way valve (44) through the second aluminum alloy liquid guide pipe (12), and pushing the second one-way valve (44) to enable the second raw material to enter the stirring mixing bin (1);

and 4, step 4: the other end of the arch-shaped pipe (6) is communicated with the three raw material storage bins, then a first liquid inlet pump (41) is started to pump the three raw materials into the arch-shaped pipe (6) for preheating, then the three raw materials enter a spraying disc (43) through the first liquid inlet pump (41), and then the three raw materials are sprayed into the stirring and mixing bin (1) through a spraying head (42);

and 5: a linkage motor (52) is started to drive a vibration rotating rod (15) to rotate, the vibration rotating rod (15) drives a special-shaped wheel (35) to rotate, the special-shaped wheel (35) impacts an impact block (32) to drive an ejector rod (19), the ejector rod (19) of the special-shaped wheel impacts a cross bayonet (38), and an impact side vibration frame (37) impacts a side vibration frame (37) through the cross bayonet (38) to drive a filter screen plate (14) to vibrate;

step 6: the second bevel gear (28) is driven to move by the rotation of the vibration rotating rod (15), the fifth bevel gear (51) is driven to rotate by the second bevel gear (28), the second transmission rod (17) is driven to rotate by the fifth bevel gear (51), and the second bevel gear (28) is driven to rotate by the second transmission rod (17);

and 7: the second bevel gear (28) drives a sixth bevel gear (53) to rotate, the sixth bevel gear (53) drives a first transmission rod (3) to rotate, the first transmission rod (3) drives a fourth bevel gear (49) to rotate, the fourth bevel gear (49) drives a third bevel gear (48) to rotate, the third bevel gear (48) drives a rotary liquid feeding pipe (21) to rotate, and then the rotary liquid feeding pipe (21) is used for stirring and mixing the raw materials in the stirring and mixing bin (1);

and 8: the U-shaped frame (25) rotates to drive the connecting bearing (29) to rotate, the push rod (18) is pushed through the connecting bearing (29), and the cleaning block (26) is pushed through the push rod (18) to move back and forth to perform friction cleaning on the top of the filter screen plate (14);

and step 9: the raw materials can be mixed in the stirring and mixing bin (1) and then enter the filtering bin (13) through the first liquid outlet valve (23) for filtering, and new raw material components are added to be mixed in the stirring and mixing bin (1) at the same time, so that the mixing and the filtering are formed in a circulating mode and are synchronously performed.