阅读说明：本技术 一种固体洗涤剂生产流水线 (Solid detergent production line ) 是由 不公告发明人 于 2021-07-14 设计创作，主要内容包括：本发明公开了一种固体洗涤剂生产流水线,涉及洗涤剂生产技术领域；包括给料组件、初混组件、固液混合组件和生产成型组件；所述给料组件用于完成各组分的持续等比配给,所述给料组件包括间歇分度机构和配料机构；所述配料机构包括给料桶和配料辊,所述配料辊上开有配料槽,所述配料辊横穿过给料桶底部的通孔；所述配料机构中相邻配料辊之间通过万向节连接；所述给料组件连接初混组件,所述初混组件通过传输机构连接固液混合组件。本装置能够改善生产流程,实现物料的动态分配给料,动态混合和动态供料,在进行给料和混合的同时不中断其他生产流程,不需要停机排料,提高工作效率,提高了生产线上各设备的利用率。(The invention discloses a solid detergent production line, and relates to the technical field of detergent production; comprises a feeding component, a primary mixing component, a solid-liquid mixing component and a production forming component; the feeding assembly is used for completing continuous equal ratio distribution of all components and comprises an intermittent indexing mechanism and a batching mechanism; the batching mechanism comprises a feeding barrel and a batching roller, wherein a batching groove is formed in the batching roller, and the batching roller transversely penetrates through a through hole in the bottom of the feeding barrel; adjacent batching rollers in the batching mechanism are connected through a universal joint; the feeding assembly is connected with the primary mixing assembly, and the primary mixing assembly is connected with the solid-liquid mixing assembly through a transmission mechanism. The device can improve the production flow, realize the dynamic distribution feeding of materials, dynamically mix and dynamically feed, does not interrupt other production flows when feeding and mixing, does not need to be stopped for discharging, improves the working efficiency, and improves the utilization rate of each device on the production line.)

1. A solid detergent production line comprises a feeding assembly, a primary mixing assembly, a solid-liquid mixing assembly and a production forming assembly; the feeding assembly is used for completing continuous equal ratio distribution of a plurality of solid powders and comprises an intermittent indexing mechanism and a batching mechanism; the batching mechanism comprises a feeding barrel and a batching roller, wherein a batching groove is formed in the batching roller, and the batching roller transversely penetrates through a through hole in the bottom of the feeding barrel; adjacent batching rollers in the batching mechanism are connected through a universal joint; the feeding assembly is connected with the primary mixing assembly, and the primary mixing assembly is connected with the solid-liquid mixing assembly through a transmission mechanism; the primary mixing assembly is used for continuously and dynamically mixing solid powder which is continuously added, and the solid-liquid mixing assembly is used for continuously mixing and transporting the mixed solid powder and liquid; the production and forming assembly is used for processing and forming the mixture of the solid powder and the liquid to obtain a final solid product.

2. The solid detergent production line of claim 1, wherein the preliminary mixing assembly comprises a mixing bowl, a primary guide cone and a secondary guide cone; the vertical transmission shaft is installed at the middle part of the mixing barrel, and a plurality of groups of first-stage guide cones and second-stage guide cones which are distributed in a staggered mode are sequentially installed in the mixing barrel from top to bottom.

3. The solid detergent production line of claim 2, wherein the primary guiding cone is an inverted cone shell, the outer edge of the primary guiding cone is connected with the inner wall of the mixing barrel, the primary guiding cone is hollow and is sleeved on the transmission shaft, the secondary guiding cone is a forward cone, the middle part of the secondary guiding cone is connected with the transmission shaft, and the outer edge of the secondary guiding cone is not contacted with the inner wall of the mixing barrel; one side of the first-level guide cone and one side of the second-level guide cone close to the feeding assembly are provided with a plurality of groups of guide edges which are uniformly distributed, and the guide edges are spiral.

4. A solid detergent production line as claimed in claim 2 or 3, wherein a primary motor is mounted outside the mixing barrel, and the primary motor is connected with a transmission shaft.

5. The solid detergent production line of claim 1, wherein the intermittent indexing mechanism comprises an indexing disc and a driving wheel, the driving wheel is embedded into the indexing disc and deviates from the center of the indexing disc, a plurality of control grooves which are uniformly distributed are formed in the inner side of the indexing disc, a convex control column is installed on the side surface of the driving wheel, the arc line coincidence length of the outer circle of the indexing disc and the control column is consistent with the interval length of the control grooves, the indexing disc is connected with the batching roller, the driving wheel is connected with the secondary motor, and the indexing disc is connected with the batching roller.

6. The solid detergent production line of claim 1, wherein a material guiding pipe obliquely pointing to the mixing barrel is connected to the bottom of the feeding barrel, and the angle of the material guiding pipe connected with the feeding barrel corresponds to the angle of the control groove on the dividing plate.

7. The solid detergent production line of claim 1, wherein the solid-liquid mixing assembly comprises a conveying mechanism, a liquid dispensing barrel and an auger mixer; one end of the auger stirrer is respectively connected with the transmission mechanism and the liquid distribution barrel, the liquid distribution barrel is connected with the auger stirrer through a guide pipe, and a control valve is arranged on the guide pipe; the auger stirrer comprises a cylinder, auger blades and a three-level motor, wherein the auger blades are installed in the cylinder, and the auger blades are connected with the three-level motor positioned outside the cylinder.

8. The solid detergent production line of claim 1 or 7, wherein the conveying mechanism comprises a conveying cylinder, a screw and a four-stage motor, two ends of the conveying cylinder are respectively connected with the mixing barrel and the auger stirrer, the screw is arranged in the conveying cylinder, and one end of the screw penetrates through the conveying cylinder and is connected with the four-stage motor.

9. The solid detergent production line of claim 7, wherein the end of the auger mixer remote from the transport mechanism is connected to a production forming assembly, the production forming assembly comprising a powder spray tower, a hot blast stove, a cyclone dust collector and a bag-type dust collector; a spray gun is installed at the top of the powder spraying tower and connected with a screw mixer; one side of the powder spraying tower, which is close to the spray gun, is connected with the hot blast stove, and one side of the powder spraying tower, which is far away from the spray gun, is sequentially connected with the cyclone dust collector and the bag-type dust collector.

10. The solid detergent production line as claimed in claim 9, wherein a discharge outlet is arranged at one end of the powder spraying tower far away from the spray gun, an output assembly is arranged at a position of the powder spraying tower close to the discharge outlet, and the output assembly comprises a driving structure and a conveyor belt sleeved on the driving structure.

Technical Field

The invention relates to the technical field of detergent production, in particular to a solid detergent production line.

Background

Detergents are products used to enhance the cleaning effect during the cleaning process, and generally include surfactants, builders, and additives. The common detergents can be divided into liquid detergents and solid detergents according to the material forms, and the solid detergents comprise common washing powders, soaps and the like, and also comprise transparent solid detergents produced in a special mode.

The production process of the solid detergent mainly comprises the steps of uniformly mixing various required components to obtain a semi-finished product, and then processing and forming the semi-finished product, wherein the common forming mode of the washing powder is spray drying forming, and other solid detergents are solidified and formed by using a mold or are tabletted and formed.

In the production flow of solid detergent, generally carry out the dosing to various components earlier, carry out intensive mixing to the batching again, later put into the shaping process, the process of batching and mixing is intermittent type nature, need accomplish a batch batching after, and the unified mixes, accomplishes again unified production shaping that produces after a batch mixes, and this kind of mode has caused the waste of certain time, and the equipment that probably appears is vacant, consequently can lead to production efficiency lower, economic reasonable's problem inadequately.

Disclosure of Invention

The invention aims to provide a solid detergent production line to solve the problems in the background technology. This production water line accomplishes the effect that developments batching and developments were mixed under automatic operation's prerequisite, makes the process of batching and mixing all be in continuous state, and the mixture of continuous output carries out machine-shaping, improve equipment utilization efficiency for whole process flow.

In order to achieve the purpose, the invention provides the following technical scheme:

a solid detergent production line comprises a feeding assembly, a primary mixing assembly, a solid-liquid mixing assembly and a production forming assembly; the feeding assembly is used for completing continuous equal ratio distribution of a plurality of solid powders and comprises an intermittent indexing mechanism and a batching mechanism; the batching mechanism comprises a feeding barrel and a batching roller, wherein a batching groove is formed in the batching roller, and the batching roller transversely penetrates through a through hole in the bottom of the feeding barrel; adjacent batching rollers in the batching mechanism are connected through a universal joint; the feeding assembly is connected with the primary mixing assembly, and the primary mixing assembly is connected with the solid-liquid mixing assembly through a transmission mechanism; the primary mixing assembly is used for continuously and dynamically mixing solid powder which is continuously added, and the solid-liquid mixing assembly is used for continuously mixing and transporting the mixed solid powder and liquid; the production and forming assembly is used for processing and forming the mixture of the solid powder and the liquid to obtain a final solid product.

As a further scheme of the invention: the primary mixing component comprises a mixing barrel, a primary guide cone and a secondary guide cone; the vertical transmission shaft is installed at the middle part of the mixing barrel, and a plurality of groups of first-stage guide cones and second-stage guide cones which are distributed in a staggered mode are sequentially installed in the mixing barrel from top to bottom.

As a still further scheme of the invention: the primary guide cone is an inverted cone shell, the outer edge of the primary guide cone is connected with the inner wall of the mixing barrel, the primary guide cone is hollow inside and is sleeved on the transmission shaft, the secondary guide cone is a forward cone, the middle part of the secondary guide cone is connected with the transmission shaft, and the outer edge of the secondary guide cone is not contacted with the inner wall of the mixing barrel; one side of the first-level guide cone and one side of the second-level guide cone close to the feeding assembly are provided with a plurality of groups of guide edges which are uniformly distributed, and the guide edges are spiral.

As a still further scheme of the invention: the mixing barrel is externally provided with a first-level motor, and the first-level motor is connected with the transmission shaft.

As a still further scheme of the invention: the intermittent indexing mechanism comprises an indexing disc and a driving wheel, the driving wheel is embedded into the indexing disc and deviates from the circle center of the indexing disc, a plurality of control grooves which are uniformly distributed are formed in the inner side of the indexing disc, a convex control column is installed on the side face of the driving wheel, the arc line coincidence length of the indexing disc and the excircle of the control column is consistent with the interval length of the control grooves, the indexing disc is connected with a batching roller, the driving wheel is connected with a secondary motor, and the indexing disc is connected with the batching roller.

As a still further scheme of the invention: the feeding barrel is characterized in that the bottom of the feeding barrel is connected with a material guide pipe which is obliquely directed to the mixing barrel, and the angle of the material guide pipe connected with the feeding barrel corresponds to the angle of the control groove on the dividing plate.

As a still further scheme of the invention: the solid-liquid mixing component comprises a transmission mechanism, a liquid preparation barrel and a packing auger stirrer; one end of the auger stirrer is respectively connected with the transmission mechanism and the liquid distribution barrel, the liquid distribution barrel is connected with the auger stirrer through a guide pipe, and a control valve is arranged on the guide pipe; the auger stirrer comprises a cylinder, auger blades and a three-level motor, wherein the auger blades are installed in the cylinder, and the auger blades are connected with the three-level motor positioned outside the cylinder.

As a still further scheme of the invention: the transmission mechanism comprises a transmission cylinder, a screw and a four-stage motor, wherein the two ends of the transmission cylinder are respectively connected with the mixing barrel and the auger stirrer, the screw is arranged in the transmission cylinder, and one end of the screw penetrates out of the transmission cylinder to be connected with the four-stage motor.

As a still further scheme of the invention: one end of the auger stirrer, which is far away from the transmission mechanism, is connected with a production forming assembly, and the production forming assembly comprises a powder spraying tower, a hot blast stove, a cyclone dust collector and a bag-type dust collector; a spray gun is installed at the top of the powder spraying tower and connected with a screw mixer; one side of the powder spraying tower, which is close to the spray gun, is connected with the hot blast stove, and one side of the powder spraying tower, which is far away from the spray gun, is sequentially connected with the cyclone dust collector and the bag-type dust collector.

As a still further scheme of the invention: the spray gun comprises a spray gun body, a spray gun, a powder spraying tower, an output assembly and a conveying belt, wherein the spray gun body is arranged on the spray gun body, the spray gun body is arranged on the conveying belt, the spray gun body is arranged on the spray gun body, the spray gun body is provided with a discharge opening, the position, close to the discharge opening, of the spray gun body is provided with the output assembly, and the output assembly comprises a driving structure and the conveying belt sleeved on the driving structure.

Compared with the prior art, the invention has the beneficial effects that:

by adopting the solid detergent production line, the device does not use a conventional batching scale, but uses a batching tank which is matched with the material proportion in each feeding barrel, uses a universal joint to enable each batching roller to synchronously rotate, and discharges after filling the batching tank, so the device is different from a batching scale for batching a large amount of materials at one time, can continuously and stably feed materials to the mixing barrel in a constant proportion keeping mode, uses an intermittent indexing mechanism, enables the batching tank to temporarily stay when rotating to the direction facing the feeding barrel and the guide pipe, and reserves sufficient time for filling and discharging materials;

by adopting the solid detergent production line, the device mixes solid powder materials firstly and then mixes the solid powder materials with liquid, so that the mixing is more uniform and efficient, the two mixing processes are dynamic mixing, the materials are continuously fed and discharged while being mixed, the feeding and discharging are not required to be stopped, the production efficiency is improved, the primary mixing component of the device utilizes the first-stage guide cone and the second-stage guide cone, the materials fall on the first-stage guide cone, flow to the inside, then fall on the second-stage guide cone, diffuse to the outside and fall on the first-stage guide cone below again, the flow path is continuously changed, the path complexity in the falling process of the powders is increased, so that various powders are gradually mixed in the flow process, the guide edges are used, the degree of freedom can be further increased, the various powders are mixed more uniformly, and the auger blades are used in the solid-liquid mixing component, the liquid and the solid which are put into the mixer can be gradually mixed, and the mixture can be gradually pushed to one side of the auger stirrer under the driving of the rotation of the auger blades, so that the materials are gradually and uniformly mixed in the discharging process, the dynamic mixing is realized, and the materials are discharged along with the inlet and the outlet, and the equipment utilization rate is improved.

Drawings

FIG. 1 is a schematic view of a solid detergent production line.

Fig. 2 is a schematic structural diagram of a dosing mechanism in a solid detergent production line.

FIG. 3 is a schematic diagram of the structure of a preliminary mixing assembly in a solid detergent production line.

FIG. 4 is a schematic diagram of the structure of the attachment of dosing rollers in a solid detergent manufacturing line.

Fig. 5 is a schematic structural view of an intermittent indexing mechanism in a solid detergent production line.

In the figure: 1. a feed assembly; 2. a feeding barrel; 3. a batching roller; 4. a universal joint; 5. a batching tank; 6. a batching mechanism; 7. a liquid preparation barrel; 8. a flow guide pipe; 9. a control valve; 10. a cylinder; 11. a screw blade; 12. producing a shaped component; 13. a spray gun; 14. a hot blast stove; 15. a bag-type dust collector; 16. an output component; 17. a cyclone dust collector; 18. a powder spraying tower; 19. a discharge port; 20. a conveyor belt; 21. a drive structure; 22. a screw mixer; 23. a transfer drum; 24. a screw; 25. a transport mechanism; 26. a four-stage motor; 27. a mixing barrel; 28. a secondary guide cone; 29. a primary guide cone; 30. a guide edge; 31. a drive shaft; 32. a primary mixing component; 33. a material guide pipe; 34. an intermittent indexing mechanism; 35. a drive wheel; 36. an index plate; 37. a through hole; 38. a control slot; 39. a control column; 40. a solid-liquid mixing component; 41. a secondary motor; 42. a three-stage motor; 43. a primary motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1, 2 and 4, in embodiment 1 of the present invention, a solid detergent production line includes a feeding assembly 1, a preliminary mixing assembly 32, a solid-liquid mixing assembly 40 and a production forming assembly 12; the feeding assembly 1 is used for completing continuous equal ratio distribution of a plurality of solid powders, and the feeding assembly 1 comprises an intermittent indexing mechanism 34 and a dosing mechanism 6; the batching mechanism 6 comprises a feeding barrel 2 and a batching roller 3, a batching groove 5 is formed on the batching roller 3, and the batching roller 3 transversely penetrates through a through hole 37 at the bottom of the feeding barrel 2; the adjacent batching rollers 3 in the batching mechanism 6 are connected through universal joints 4; the feeding assembly 1 is connected with a primary mixing assembly 32, and the primary mixing assembly 32 is connected with a solid-liquid mixing assembly 40 through a transmission mechanism 25; the primary mixing component 32 is used for continuously and dynamically mixing the solid powder which is continuously added, and the solid-liquid mixing component 40 is used for continuously mixing and transporting the mixed solid powder and liquid; the production molding assembly 12 is used to machine and mold a mixture of solid powder and liquid to obtain a final solid product.

The device is a production line, and is used for completing the whole process of uniformly mixing materials and finally producing, forming and obtaining finished products. This device sets up feed subassembly 1 around just mixing subassembly 32, and feed subassembly 1 utilizes batching roller 3 and batching groove 5 to accomplish the feed work.

The batching roller 3 is positioned at the bottom of the feeding barrel 2, the middle part of the batching roller is exposed in the feeding barrel 2, and the size of the batching groove 5 on each batching roller 3 is set according to the proportion of the materials in the formula in the feeding barrel 2. When batching roller 3 rotates to batching groove 5 openly up, the top material falls under the action of gravity, fills up batching groove 5, and batching groove 5 continues to rotate to the position that the opening is down, and then inside material flows out under the action of gravity, gets into just mixing subassembly 32 and mixes. The batching roller 3 of this device receives the control of intermittent type indexing mechanism 34, and corresponding batching groove 5 openly up and the angle that corresponds the passage 33 export, the rolling phenomenon of suspending can appear in batching roller 3, reserves the time for filling batching groove 5 and pouring out the material. Through this kind of mode, on great timescale, the proportional continuous ejection of compact of continuity can be accomplished to this device, makes this assembly line can continuous operation. The universal joint 4 is used in the device to ensure that all materials are discharged at the same time interval, the universal joint 4 used in the attached drawing of the device specification is initially set as a cross-axle type universal coupling, and if the speed is more stable and consistent, the universal joint can be replaced by a spherical fork type or a rzeppa type universal joint 4.

Example 2

Referring to fig. 1 to 5, the main differences between the embodiment 2 and the embodiment 1 are:

referring to fig. 1 and 3, in another embodiment of the present invention, the primary mixing assembly 32 includes a mixing bowl 27, a primary guide cone 29, and a secondary guide cone 28; the middle part of the mixing barrel 27 is provided with a vertical transmission shaft 31, and a plurality of groups of first-stage guide cones 29 and second-stage guide cones 28 which are distributed in a staggered manner are sequentially arranged in the mixing barrel 27 from top to bottom. The preliminary mixing assembly 32 is used to initially mix the solid powdered material and keep the mixing action while continuing to input the material and output the mixed product. The mixing mode of the device is that various materials repeatedly pass through the primary guide cone 29 and the secondary guide cone 28 for multiple times to change the moving direction, so that the influence of free movement is increased, and the various materials are gradually mixed.

Referring to fig. 1 and 3, in another embodiment of the present invention, the primary guide cone 29 is an inverted cone shell, the outer edge of the primary guide cone 29 is connected to the inner wall of the mixing barrel 27, the inner part of the primary guide cone 29 is hollow, and is sleeved on the transmission shaft 31, the secondary guide cone 28 is a forward cone, the middle part of the secondary guide cone 28 is connected to the transmission shaft 31, and the outer edge is not in contact with the inner wall of the mixing barrel 27; one side of the first-stage guide cone 29 and the second-stage guide cone 28 close to the feeding assembly 1 are provided with a plurality of groups of guide ribs 30 which are uniformly distributed, and the guide ribs 30 are spiral. The material moves to the middle part low along the awl shell of inversion, and leak down from the middle part, the high point that falls on the awl shell of below, fall down along the awl shell of second grade guide cone 28 again, fall into the one-level guide cone 29 inboard of below from the outer fringe, and one-level guide cone 29 and second grade guide cone 28 surface all rigid coupling have guide arris 30, guide arris 30 can change moving direction to a certain extent, make the removal orbit of material more complicated, through the adjustment of the removal orbit that lasts, make the material mix gradually, and when reaching the bottom, reach the state of mixing uniformity, direct discharge, consequently, can realize lasting material input and output, the row material need not shut down.

Referring to fig. 1 and 3, in another embodiment of the present invention, a primary motor 43 is mounted outside the mixing bowl 27, and the primary motor 43 is connected to the transmission shaft 31. This device can be through installing one-level motor 43 control transmission shaft 31, and then drive inside second grade guide cone 28 and rotate, further exerts the power of more not equidirectional to the material, improves the complexity that the material removed, improves the mixed effect simultaneously.

Referring to fig. 1 and 5, in another embodiment of the present invention, the intermittent indexing mechanism 34 includes an indexing disc 36 and a driving wheel 35, the driving wheel 35 is embedded in the indexing disc 36 and is offset from the center of the indexing disc 36, a plurality of control grooves 38 are uniformly distributed on the inner side of the indexing disc 36, a convex control column 39 is fixedly connected to the side surface of the driving wheel 35, the arc overlapping length of the outer circles of the indexing disc 36 and the control column 39 is the same as the interval length of the control grooves 38, the indexing disc 36 is connected to the batching roller 3, the driving wheel 35 is connected to a secondary motor 41, and the indexing disc 36 is connected to the batching roller 3. The intermittent indexing mechanism 34 is used for controlling the dosing roller 3, so that the dosing roller 3 can continuously and orderly rotate, and can be stopped for a short time at a specified angle to realize the functions of filling materials and discharging the materials. The intermittent indexing mechanism 34 utilizes the cooperation of an indexing disc 36 and a driving wheel 35, a control groove 38 is arranged at a corresponding position on the surface of the indexing disc 36, and the driving wheel 35 is smaller than the indexing disc 36 and is eccentrically connected with the indexing disc 36, so that when a control column 39 is far away from the circle center of the indexing disc 36, the control column intersects with the indexing disc 36 and can be inserted into the control groove 38 to control the rotation of the indexing disc 36; when the control column 39 approaches the center of the indexing disk 36, the disengagement control slot 38 rotates and the indexing disk 36 remains stationary. In this way, the indexing disk 36 can be controlled to rotate by a specified angle for each rotation of the driving wheel 35 as the driving wheel 35 rotates.

Referring to fig. 1 and 2, in another embodiment of the present invention, a material guiding pipe 33 obliquely pointing to the mixing bowl 27 is connected to the bottom of the feeding bowl 2, and the angle of the material guiding pipe 33 connected to the feeding bowl 2 corresponds to the angle of the control slot 38 on the dividing plate 36. The material guide pipe 33 is used for conveying the materials quantitatively measured by the batching tank 5 to the primary mixing mechanism, and the material is received at the angle at which the batching roller 3 stops rotating by the installation angle of the material guide pipe 33 matching with the intermittent indexing mechanism 34. After the indexing plate 36 is driven one or more times and the arc of one or more control chutes 38 is rotated, the rotation angle is required to correspond to the installation angle of the material guiding pipe 33, even when the indexing plate 36 stops rotating intermittently, the direction of the dosage chute 5 on each dosage roller 3 is just shifted to the inlet direction of the material guiding pipe 33, so that the dosage chute 5 stays there for a short time, and the materials in the dosage chute have enough time to be emptied normally.

Referring to fig. 1 and 2, in another embodiment of the present invention, the solid-liquid mixing assembly 40 comprises a transmission mechanism 25, a liquid preparation barrel 7 and an auger stirrer 22; one end of the auger stirrer 22 is respectively connected with the transmission mechanism 25 and the liquid preparation barrel 7, the liquid preparation barrel 7 is connected with the auger stirrer 22 through a guide pipe 8, and the guide pipe 8 is provided with a control valve 9; the auger stirrer 22 comprises a cylinder 10, auger blades 11 and a three-level motor 42, the auger blades 11 are installed in the cylinder 10, and the auger blades 11 are connected with the three-level motor 42 positioned outside the cylinder 10. Use auger mixer 22, can mix the solid powder and the liquid that get into wherein, the mixture lasts to the opposite side transmission under pivoted auger blade 11's effect when mixing, owing to set up two sets of different helical period's auger blade 11 in this device, consequently the part that two sets of auger blade 11 do not coincide helps improving the mixed effect when rotating, the length that auger mixer 22 set up is longer, after the stirring through a section distance, can reach effectual mixture, reentrant follow-up flow, consequently, can realize when the stirring mixes, last feeding and the ejection of compact.

Referring to fig. 1, in another embodiment of the present invention, the transmission mechanism 25 includes a transmission cylinder 23, a screw 24 and a four-stage motor 26, two ends of the transmission cylinder 23 are respectively connected to the mixing barrel 27 and the auger mixer 22, the screw 24 is installed inside the transmission cylinder 23, and one end of the screw 24 penetrates through the transmission cylinder 23 and is connected to the four-stage motor 26. The conveying mechanism 25 is used to convey the mixed powder material into the solid-liquid mixing module 40, and a screw conveyor that uses a screw 24 in cooperation with the conveying cylinder 23 may be used in the present apparatus.

Referring to fig. 1, in another embodiment of the present invention, an end of the auger mixer 22 away from the conveying mechanism 25 is connected to a production molding assembly 12, and the production molding assembly 12 includes a powder spraying tower 18, a hot blast stove 14, a cyclone dust collector 17 and a bag-type dust collector 15; a spray gun 13 is installed at the top of the powder spraying tower 18, and the spray gun 13 is connected with an auger stirrer 22; one side of the powder spraying tower 18 close to the spray gun 13 is connected with a hot blast stove 14, and one side of the powder spraying tower 18 far away from the spray gun 13 is sequentially connected with a cyclone dust collector 17 and a bag-type dust collector 15. The production forming assembly 12 is used for making the mixed materials into a formed finished product with a solid structure and putting the formed finished product into a subsequent processing or packaging process, the device is provided with a powder spraying forming device for washing powder, and in the process of producing soap or other solid detergents, the production forming assembly 12 can be replaced by a module for forming and demoulding by a mould or a module for pressing into blocks and cutting. The device is formed by introducing liquid into a powder spraying tower 18, spraying water mist from a spray gun 13, instantly evaporating the water mist by using hot air to obtain a detergent of powder particles, finishing the dust removal work of discharged gas by using a cyclone dust collector 17 and a bag-type dust collector 15 in a matching way, and enabling a product obtained by dust removal to be used for producing the detergent; the cloth bag dust removal can also be replaced by water film dust removal or other dust removal modes.

Referring to fig. 1, in another embodiment of the present invention, an outlet 19 is installed at an end of the powder spray tower 18 away from the spray gun 13, an output assembly 16 is installed at a position of the powder spray tower 18 close to the outlet 19, and the output assembly 16 includes a driving structure 21 and a conveyor belt 20 sleeved on the driving structure 21. In the working process of the production molding assembly 12, the generated small particle products can naturally fall to the discharge port 19 and fall on the conveyor belt 20 below, and are discharged to the subsequent production or packaging process.

The working principle of the invention is as follows:

this device uses feed subassembly 1, just mix subassembly 32, solid-liquid mixing assembly 40, has realized lasting incessant feed and has mixed to can be lasting for subsequent production forming subassembly 12 provides raw and other materials, make production forming subassembly 12 can not appear idle, work that various equipment can both last for a long time reduces latency, improves production efficiency. The feed subassembly 1 of this device can realize that the ration volume gets the material through the cooperation of intermittent type indexing mechanism 34 and batching mechanism 6 and thoughtlessly joins in marriage to use intermittent type indexing mechanism 34, guaranteed the stability of thoughtlessly joining in marriage the process, and for loading and pouring out and leave sufficient time, the equal proportion batching that can be stable for a long time, not for batching occupation time, very big improvement the batching flow, and this production line's batching simple structure has saved the space.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.