CN111330476A

CN111330476A - Blendor is used in detergent production

Info

Publication number: CN111330476A
Application number: CN202010158978.6A
Authority: CN
Inventors: 卢姝欣; 林子丹
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-03-09
Filing date: 2020-03-09
Publication date: 2020-06-26

Abstract

The invention relates to the field of detergent production equipment, in particular to a mixer for producing a detergent, which comprises a base, wherein a mixing drum and a motor are fixed on the base, a feed inlet is formed in the upper side wall of the mixing drum, a feed valve is connected to the feed inlet, a heating plate is embedded in the inner wall of the mixing drum, a mixing mechanism is arranged inside the mixing drum, the mixing mechanism is in transmission connection with a main shaft of the motor through a speed reducer, a scraping mechanism is arranged on the mixing mechanism, an exhaust mechanism is fixed at the upper end of the outer side of the mixing drum, and the scraping mechanism can be in abutting connection with the exhaust mechanism. This kind of blendor is used in detergent production carries out the compounding through motor drive compounding mechanism to the internal perisporium of stirring drum is struck off to the drive scraping material mechanism, thereby effectively avoids the detergent to bond on the internal perisporium of stirring drum, makes to mix more evenly, improves the mixed effect, drives exhaust mechanism work through scraping plate mechanism, and then realizes removing the bubble to the stirring drum is inside to be handled, improves product quality.

Description

Blendor is used in detergent production

Technical Field

The invention relates to the field of detergent production equipment, in particular to a mixer for producing a detergent.

Background

In the production process of the detergent, the detergent is mixed by adopting a heating, stirring and mixing mode, in the existing detergent mixing equipment, the phenomenon that the detergent is heated and unevenly adhered to the side wall of a stirring container easily occurs in the stirring process, in addition, the components of the detergent cannot be well and uniformly mixed in the stirring process, so that the mixing effect of the detergent is poor, in addition, too many bubbles are easily generated after the detergent is stirred, mixed and added with water, so that the product quality is poor, and therefore, the mixer for producing the detergent is provided.

Disclosure of Invention

The invention aims to provide a mixer for producing a detergent, which solves the problems in the prior art.

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

on the one hand, the mixer is used in detergent production, the on-line screen storage device comprises a base, be fixed with churn and motor on the base, the feed inlet has been seted up to the last lateral wall of churn, and feed inlet department connects the feed valve, the scarf joint has the hot plate on the inner wall of churn, the churn is cylindrical, and churn the central axis level is horizontal, the inside of churn is provided with compounding mechanism, and compounding mechanism passes through the decelerator transmission with the main shaft of motor and is connected, be provided with in the compounding mechanism and scrape the material mechanism, the outside upper end of churn is fixed with exhaust mechanism, and scrape the material mechanism can support to detain with exhaust mechanism and be connected.

Preferably, the mixing mechanism comprises a rotating drum, the middle part of the outer side wall of the rotating drum is fixedly connected with a rotating shaft, the rotating shaft is connected with a main shaft of a motor through a speed reducer, a rotating shaft fixed shaft is rotatably connected to the inner side wall of the stirring drum, the rotating shaft is parallel to the central axis of the stirring drum, the rotating shaft is perpendicular to the central axis of the rotating drum, and the rotating shaft is located below the central axis of the stirring drum.

Preferably, the inside of the rotating cylinder is slidably connected with a first piston plate, the first piston plate divides the inside of the rotating cylinder into a first chamber and a second chamber, a first twist rod and a second twist rod are fixed at the centers of two side faces of the first piston plate respectively, one end, far away from the first piston plate, of the first twist rod penetrates through the first chamber and points to the inner circumferential wall of the stirring cylinder, one end, far away from the first piston plate, of the second twist rod penetrates through the second chamber and points to the inner circumferential wall of the stirring cylinder, and a scraping mechanism is fixed at one end, pointing to the inner circumferential wall of the stirring cylinder, of the first twist rod and one end, pointing to the inner circumferential wall.

Preferably, a first extruding and shearing assembly is fixed at one end, corresponding to the first chamber, of the rotating drum, a second extruding and shearing assembly is fixed at one end, corresponding to the second chamber, of the rotating drum, the first chamber is respectively communicated with the first extruding and shearing assembly and the second extruding and shearing assembly through a first guide pipe group, and the second chamber is respectively communicated with the first extruding and shearing assembly and the second extruding and shearing assembly through a second guide pipe group.

Preferably, first crowded subassembly of cutting includes carousel and pressure boost section of thick bamboo, the end at first cavity department rotary drum is connected in the rotation of carousel dead axle, a fried dough twist rod runs through the center of carousel and the internal perisporium of directional churn, and set up the through-hole with a fried dough twist rod cross section looks adaptation on the carousel, the tip at the first cavity of rotary drum correspondence is fixed to the pressure boost section of thick bamboo, and the inside helical wheel that is provided with of pressure boost section of thick bamboo, helical wheel and the coaxial fixed connection of carousel, a plurality of through-holes have been seted up on the lateral wall of pressure boost section of thick bamboo, first crowded subassembly of cutting and the crowded subassembly structure of cutting of second are identical, and the.

Preferably, the first flow guide pipe comprises a first feeding hole and a first discharging hole which are formed in the side wall of the first chamber, the first feeding hole is connected with the second one-way valve, the first discharging hole is respectively communicated with the insides of the two pressurizing cylinders through the first flow dividing pipe, and the first flow dividing pipe is connected with the first one-way valve.

Preferably, the second honeycomb duct includes second feed inlet and the second discharge gate of seting up on the lateral wall of second cavity room, and second feed inlet department connects the fourth check valve, and the second discharge gate communicates two respectively through the second shunt tubes the inside of pressure boost section of thick bamboo, connects the third check valve on the second shunt tubes.

Preferably, the scraping mechanism comprises a sliding rod fixed at the end part of the twist rod, a sliding sleeve is sleeved outside the sliding rod, a scraper is fixed at one end of the inner circumferential wall of the sliding sleeve, the sliding rod is connected with the scraper through a spring, and the scraper is in line contact with the inner circumferential wall of the mixing drum.

Preferably, exhaust mechanism is including fixing the compression section of thick bamboo in churn lateral wall upper end, the inside sliding connection of compression section of thick bamboo has piston plate two, and be connected through spring two between piston plate two and the churn, the lower fixed surface of piston plate two has the piston rod, the piston rod is pegged graft and is seting up in the logical inslot on the churn lateral wall, and the piston rod can slide from top to bottom at logical inslot, the lower extreme of piston rod is the wedge structure, the cross section of scraper blade is the wedge structure with piston rod lower extreme looks adaptation, and the scraper blade can support the knot with the lower extreme of piston rod and contact, inlet port and venthole have been seted up on the lateral wall upper portion of compression section of thick bamboo, the inlet port pass through the blast pipe intercommunication set up with the exhaust hole on the.

In addition, the application provides a use method based on the machine, and the use method comprises the following steps:

the method comprises the following steps: the motor drives the mixing mechanism to operate, and the mixing mechanism drives the scraping mechanism to scrape the detergent adhered to the inner peripheral wall of the stirring cylinder after operating;

step two: the mixing mechanism circularly flows the detergent and throws away the detergent, so that the detergent is mixed more uniformly, and the mixing effect is improved.

Step three: the scraper mechanism drives the exhaust mechanism to work, so that the bubble removal treatment of the interior of the mixing drum is realized, and the product quality is improved.

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

according to the invention, the motor drives the mixing mechanism to mix materials and drives the scraping mechanism to scrape the inner circumferential wall of the stirring cylinder, so that the detergent is effectively prevented from being bonded on the inner circumferential wall of the stirring cylinder;

according to the invention, the mixing mechanism circularly flows the detergent and throws out the detergent from the extruding and shearing assembly, so that the mixing is more uniform, and the mixing effect is further improved.

In the invention, the scraping plate mechanism drives the exhaust mechanism to work, so that the defoaming treatment of the interior of the mixing drum is realized, and the product quality is improved.

Drawings

FIG. 1 is a first schematic view of the cross-sectional structure of the final assembly of the present invention;

FIG. 2 is a schematic view of the cross-sectional structure A-A of FIG. 1;

FIG. 3 is a schematic cross-sectional view of a drum according to the present invention;

FIG. 4 is an enlarged view of the structure at B in FIG. 1;

FIG. 5 is a schematic view of the cross-sectional structure of the final assembly of the present invention;

fig. 6 is a schematic view of the sectional structure of the final assembly of the present invention.

In the figure: 1-a base; 2-a mixing drum; 3-heating the plate; 4-a feed valve; 5-a feed inlet; 6, a motor; 7-a rotating drum; 8-piston plate one; 9-a first chamber; 10-a second chamber; 11-a twist rod I; 12-a twist rod II; 13-a first pinch-shear assembly; 14-a second shear-extruding assembly; 15-a first flow tube group; 16-a second flow tube set; 17-an exhaust mechanism; 18-a first discharge port; 19-a first one-way valve; 20-a first shunt tube; 21-a first feed port; 22-a second one-way valve; 23-a second discharge port; 24-a third one-way valve; 25-a second shunt tube; 26-a second feed port; 27-a fourth one-way valve; 28-a turntable; 29-a pressurized cartridge; 30-a helical impeller; 31-a through hole; 32-a slide bar; 33-a sliding sleeve; 34-a first spring; 35-a scraper; 36-a compression cylinder; 37-piston plate two; 38-a piston rod; 39-through grooves; 40-a second spring; 41-air vent; 42-an exhaust pipe; 43-a fifth one-way valve; 44-an air intake; 45-air outlet holes; 46-a sixth one-way valve; 47 rotating the shaft.

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 obtained by workers skilled in the art without any inventive work based on the embodiments of the present invention, are within the scope of the present invention.

Referring to fig. 1 to 6, the present invention provides a technical solution: a mixer for producing detergent comprises a base 1, a mixing drum 2 and a motor 6 are fixed on the base 1, a feed inlet 5 is arranged on the upper side wall of the mixing drum 2, a feed valve 4 is connected at the position of the feed inlet 5, a heating plate 3 is embedded on the inner wall of the mixing drum 2, the mixing drum 2 is a cylindrical drum, the central axis of the mixing drum 2 is horizontally transverse, as shown in figures 1, 5 and 6, the central axis of the mixing drum 2 is vertical to the paper surface, namely, the mixing drum is horizontally front and back in figures 1, 5 and 6, correspondingly, the mixing drum 2 is horizontally left and right in figure 2, the left position in figure 2 corresponds to the rear side in figures 1, 5 and 6, the right position in figure 2 corresponds to the front side in figures 1 and 6, a mixing mechanism is arranged inside the mixing drum 2, the mixing mechanism is in transmission connection with the main shaft of the motor 6 through a speed reducer, a material scraping mechanism is arranged on the mixing mechanism, an exhaust mechanism 17 is fixed at the upper end of the outer side of the mixing, and the scraping mechanism can be connected with the exhaust mechanism 17 in a buckling manner.

In this embodiment, compounding mechanism includes rotary drum 7, and rotary drum 7's lateral wall middle part fixed connection pivot 47, and pivot 47 passes through decelerator and connects the main shaft of motor 6, and pivot 47 dead axle rotates to be connected on the inside wall of churn 2, and pivot 47 is parallel with the central axis of churn 2, and pivot 47 is perpendicular with the central axis of rotary drum 7, and pivot 47 is located the below of churn 2 central axis.

In this embodiment, the inside of the rotating cylinder 7 is slidably connected with a first piston plate 8, the first piston plate 8 divides the inside of the rotating cylinder 7 into a first chamber 9 and a second chamber 10, a first twist rod 11 and a second twist rod 12 are fixed at the centers of two side surfaces of the first piston plate 8 respectively, one end of the first twist rod 11, which is far away from the first piston plate 8, penetrates through the first chamber 9 and points to the inner circumferential wall of the stirring cylinder 2, one end of the second twist rod 12, which is far away from the first piston plate 8, penetrates through the second chamber 10 and points to the inner circumferential wall of the stirring cylinder 2, and one ends of the first twist rod 11 and the second twist rod 12, which point to the inner circumferential wall of the stirring cylinder 2, are both fixed with.

In this embodiment, a first extruding and shearing assembly 13 is fixed at an end of the rotating drum 7 corresponding to the first chamber 9, a second extruding and shearing assembly 14 is fixed at an end of the rotating drum 7 corresponding to the second chamber 10, the first chamber 9 is respectively communicated with the first extruding and shearing assembly 13 and the second extruding and shearing assembly 14 through a first guide pipe group 15, and the second chamber 10 is respectively communicated with the first extruding and shearing assembly 13 and the second extruding and shearing assembly 14 through a second guide pipe group 16.

In this embodiment, the first extruding-shearing assembly 13 includes a rotating disc 28 and a pressurizing cylinder 29, the rotating disc 28 is connected to the end of the rotating drum 7 at the first chamber 9 in a fixed-axis manner, as shown in fig. 3, the rotating disc 28 is connected to the end surface of the rotating drum 7 in a fixed-axis manner, the first twist rod 11 penetrates through the center of the rotating disc 28 and points to the inner circumferential wall of the stirring drum 2, a through hole adapted to the cross section of the first twist rod 11 is formed in the rotating disc 28, the pressurizing cylinder 29 is fixed to the end of the rotating drum 7 corresponding to the first chamber 9, a helical impeller 30 is arranged inside the pressurizing cylinder 29, the helical impeller 30 is fixedly connected to the rotating disc 28 in a coaxial manner, the helical impeller 30 is sleeved outside the first twist rod 11 and does not contact with the first twist rod 11, the first twist rod 11 penetrates through the pressurizing cylinder 29 and points to the inner circumferential wall of the stirring drum 2, the twist rod 11 does not contact with the pressurizing, the first extruding and shearing assembly 13 and the second extruding and shearing assembly 14 are identical in structure and are symmetrically fixed at two ends of the rotary drum 7.

In this embodiment, the first flow guiding pipe 15 includes a first feeding hole 21 and a first discharging hole 18 formed on the side wall of the first chamber 9, the second one-way valve 22 is connected to the first feeding hole 21, the first discharging hole 18 is respectively communicated with the insides of the two pressurizing cylinders 29 through a first flow dividing pipe 20, and the first flow dividing pipe 20 is connected to the first one-way valve 19.

In this embodiment, the second flow guiding pipe 16 includes a second inlet 26 and a second outlet 23 formed on the sidewall of the second chamber 10, the second inlet 26 is connected to a fourth check valve 27, the second outlet 23 is respectively communicated with the insides of the two pressurizing cylinders 29 through a second flow dividing pipe 25, and the second flow dividing pipe 25 is connected to a third check valve 24.

In this embodiment, the scraping mechanism includes a sliding rod 32 fixed at the end of the twist rod, a sliding sleeve 33 is sleeved outside the sliding rod 32, a scraper 35 is fixed at one end of the sliding sleeve 33 pointing to the inner peripheral wall of the mixing drum 2, the sliding rod 32 and the scraper 35 are connected through a first spring 34, and the scraper 35 is in line contact with the inner peripheral wall of the mixing drum 2.

In this embodiment, the exhaust mechanism 17 includes a compression cylinder 36 fixed on the upper end of the outer side wall of the mixing cylinder 2, a second piston plate 37 is slidably connected inside the compression cylinder 36, the second piston plate 37 is connected with the mixing drum 2 through a second spring 40, a piston rod 38 is fixed on the lower surface of the second piston plate 37, the piston rod 38 is inserted in a through groove 39 formed in the side wall of the mixing drum 2, and the piston rod 38 can slide up and down in the through groove 39, the lower end of the piston rod 38 is of a wedge-shaped structure, the cross section of the scraper 35 is of a wedge-shaped structure matched with the lower end of the piston rod 38, the scraper 35 can be contacted with the lower end of the piston rod 38 in a buckling manner, the upper part of the side wall of the compression cylinder 36 is provided with an air inlet hole 44 and an air outlet hole 45, the air inlet hole 44 is communicated with an exhaust hole 41 on the side wall of the mixing cylinder 2 through an exhaust pipe 42, and the exhaust pipe 42 is connected with a fifth one-way valve 43, and the air outlet 45 is connected with a sixth one-way valve 46.

The use method and the advantages of the invention are as follows: when the mixer for producing the detergent is used, the mixer comprises the following steps:

the method comprises the following steps: starting the motor 6 and the heating plate 3, heating the heating plate 3 by using an electric heating plate, wherein the heating circuit and the heating principle of the electric heating plate are in the prior art, and the invention point of the application is not described herein, opening the feed valve 4, adding the detergent raw material into the mixing drum 2 from the feed valve 4 and the feed inlet 5, heating the detergent raw material by using the heating plate 3, driving the rotating shaft 47 to rotate by the speed reducer after the motor 6 is powered on, as shown in fig. 1 and 6, rotating the rotating shaft 47 to drive the rotating drum 7 to rotate synchronously, driving the first twisted bar 11 and the second twisted bar 12 to rotate synchronously by the rotation of the rotating drum 7, making the scraping plates 35 at the ends of the first twisted bar 11 and the second twisted bar 12 do circular motion along the inner peripheral wall of the mixing drum 2, thereby scraping the detergent adhered to the inner peripheral wall of the mixing drum 2, and avoiding the phenomenon that the detergent is adhered to the inner peripheral wall of the mixing drum 2 due to, the sliding sleeve 33 on the scraper 35 and the sliding rod 32 on the corresponding twist rod can slide relatively, so that the problem that the distance between the two scrapers 35 and the inner diameter of the stirring cylinder 2 do not correspond to each other due to the eccentricity between the rotating shaft 47 and the central axis of the stirring shaft 2 is solved, the first spring 34 is used for keeping the scrapers 35 in line contact with the inner peripheral wall of the stirring cylinder 2 all the time, the scraping effect of the scrapers 35 is ensured, and detergent is effectively prevented from being bonded on the inner peripheral wall of the stirring cylinder 2;

step two: in the process of rotating the rotary drum 7, as shown in fig. 5 and 6, when the rotary drum 7 is set to rotate clockwise, and the rotary drum 7 drives the scraper 35 corresponding to the second chamber 10 to move from the upper end of the inner wall of the mixing drum 2 to the lower end, because the distance from the rotation center of the rotary drum 7 to the inner wall of the mixing drum 2 gradually decreases, the reaction thrust of the inner wall of the mixing drum 2 to the scraper 35 becomes larger and larger, so that the push plate 35, the corresponding first spring 34 and the corresponding slide rod 32 apply a thrust to the twist rod two 12 towards the rotation center of the rotary drum 7, so that the twist rod two 12 pushes the drum piston plate one 8 to slide in the rotary drum 7, the sliding of the piston plate one 8 compresses the first chamber 9, because the volume in the rotary drum 7 is fixed, the second chamber 10 is expanded while the first chamber 9 is compressed, as shown in fig. 3, when the piston plate one 8 compresses the first chamber 9, the pressure in the first chamber 9 is increased, and the detergent in the first chamber 9 is discharged from the first discharge port 18 and enters the first shunt pipe 20 through the first check valve 19, the conducting direction of the second check valve 22 is directed to the first chamber 9, so that the detergent in the first chamber 9 does not flow out from the first feed port 21, and the conducting direction of the first check valve 19 is directed to the first shunt pipe 20, so that when the interior of the first chamber 9 is compressed, the detergent in the first chamber 9 is discharged from the first discharge port 18 to the first shunt pipe 20 and is respectively conveyed to the two pressurizing cylinders 29 through the first shunt pipe 20;

when the piston plate 8 compresses the first chamber 9, the second chamber 10 is also expanded, the volume of the second chamber 10 is increased after the expansion, the internal pressure is reduced, and because the conduction direction of the fourth check valve 27 points to the second chamber 10, under the action of pressure difference, the detergent outside the drum 7 can enter the second chamber 10 from the second feed inlet 26, and the conduction direction of the third check valve 24 points to the inside of the second shunt pipe 25, so that the washing liquid inside the second shunt pipe 25 cannot flow into the second chamber 10 from the second discharge outlet 23 when the inside of the second chamber 10 is expanded, so that when the piston plate 8 pressurizes and outputs the detergent to the first chamber 9, the second chamber 10 sucks the detergent from the outside, and the detergent can form a circulating flow when the detergent is discharged, which is favorable for improving the mixing uniformity;

when the first chamber 9 is expanded by the first piston plate 8, the volume of the expanded first chamber 9 is increased, the internal pressure is reduced, the detergent enters the first chamber 9 from the first feeding hole 21 under the action of pressure difference, the conduction direction of the third one-way valve 24 points to the inside of the second shunt pipe 25, the piston plate 8 compresses the second chamber 10 while expanding the first chamber 9, the pressure inside the second chamber 10 is increased, the detergent inside the second chamber 10 is discharged from the second discharging hole 23 and is respectively conveyed into the two pressurizing cylinders 29 through the second shunt pipe 25, and therefore the detergent is circularly input and output again, and the mixing uniformity is improved;

torque is applied to the corresponding turntable 28 through the helical surfaces on both sides of the twist rod while the twist rod drives the piston plate one 8 to move, thereby rotating the rotating disk 28, the rotation of the rotating disk 28 synchronously drives the spiral impeller 30 to rotate, the rotation of the spiral impeller 30 rotates the washing liquid in the pressurizing cylinder 29, thereby creating centrifugal force, so that the detergent is extruded from the through-holes 31 in the sidewall of the pressurizing drum 29, and is thrown away, so that the detergent is mixed more uniformly, and the detergent is extruded and thrown from the through hole 31 under the extrusion action of centrifugal force and is extruded and sheared by the spiral impeller 30, so that the raw materials of the detergent can be better dispersed, the quality of the detergent can be better improved, when the detergent is squeezed out of the through hole 31 and thrown away, the rotating drum 7 also drives the pressurizing drum 29 to rotate, so that the detergent is further thrown away, the mixing is more uniform, and the mixing effect is further improved;

step three: in the process of rotating the scraper 35, as shown in fig. 4, after the scraper 35 abuts against the lower end of the sliding rod 38, under the action of the wedge-shaped structure, the scraper 35 applies an upward force to the sliding rod 38, so that the piston plate two 37 moves upward in the compression cylinder 36, and stretches the spring two 40, so that the spring two 40 obtains a downward restoring force, the upward movement of the piston plate 37 discharges the air inside the compression cylinder 36 from the air outlet hole 45, the conducting direction of the fifth check valve 43 points to the inside of the compression cylinder 36, so that the upward movement of the piston plate 37 does not discharge the air inside the compression cylinder 36 from the air inlet hole 44 to the air outlet pipe 42, the conducting direction of the sixth check valve 46 points to the outside of the compression cylinder 36, and the upward movement of the piston plate 37 can discharge the air inside the compression cylinder 36 from the air outlet hole 45;

when the scraper 35 is dislocated with the lower end of the sliding rod 38, the lower end of the sliding rod 38 is not acted by force, the second piston plate 37 moves downwards under the action of the restoring force of the second spring 40, the internal volume of the compression cylinder 36 is increased, the internal pressure is decreased, because the conduction direction of the fifth one-way valve 43 points to the internal part of the compression cylinder 36, the air in the stirring cylinder 2 enters the internal part of the compression cylinder 36 through the exhaust hole 41, the exhaust pipe 42 and the air inlet hole 44 under the action of pressure difference, the conduction direction of the sixth one-way valve 46 points to the external part of the compression cylinder 36, the air outside the compression cylinder 36 cannot be sucked in through the air outlet hole 45 by the downward movement of the piston plate 37, so that the air in the stirring box 2 is pumped out and exhausted when the scraper 35 is continuously contacted with the sliding rod 38 in a buckling manner, the vacuum degree in the stirring cylinder 2 is increased, and air bubbles in the, thereby removing foam and improving product quality.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a blendor is used in detergent production, includes base (1), be fixed with churn (2) and motor (6) on base (1), feed inlet (5) have been seted up to the last lateral wall of churn (2), and feed inlet (5) department connect feed valve (4), the scarf joint has hot plate (3), its characterized in that on the inner wall of churn (2): the mixing drum is characterized in that the mixing drum (2) is a cylindrical drum, the central axis of the mixing drum (2) is horizontally transverse, a mixing mechanism is arranged inside the mixing drum (2), the mixing mechanism is connected with the main shaft of the motor (6) through a speed reducer in a transmission mode, a scraping mechanism is arranged on the mixing mechanism, an exhaust mechanism (17) is fixed to the upper end of the outer side of the mixing drum (2), and the scraping mechanism can be connected with the exhaust mechanism (17) in an abutting mode.

2. The mixer for producing detergents according to claim 1, wherein: the compounding mechanism includes rotary drum (7), lateral wall middle part fixed connection pivot (47) of rotary drum (7), and pivot (47) pass through the main shaft that decelerator connects motor (6), pivot (47) dead axle rotates and connects on the inside wall of churn (2), and pivot (47) are parallel with the central axis of churn (2), pivot (47) are perpendicular with the central axis of rotary drum (7), pivot (47) are located the below of churn (2) the central axis.

3. The mixer for producing detergents according to claim 2, wherein: the inside sliding connection of rotary drum (7) has piston board (8), and piston board (8) separates into first cavity (9) and second cavity (10) with the inside of rotary drum (7), the both sides face center punishment of piston board (8) is fixed with fried dough twist pole (11) and fried dough twist pole two (12) respectively, the first internal perisporium that first cavity (9) and directed to churn (2) is passed to the one end that piston board (8) were kept away from in fried dough twist pole (11), the internal perisporium that second cavity (10) and directed to churn (2) is passed to the one end that piston board (8) are kept away from in fried dough twist pole two (12), and the one end of the internal perisporium that fried dough twist pole (11) and fried dough twist pole two (12) are directed to churn (2) all is fixed with scraping mechanism.

4. A mixer for detergent manufacture according to claim 3, characterised in that: one end of the rotary drum (7) corresponding to the first chamber (9) is fixed with a first squeezing and shearing assembly (13), one end of the rotary drum (7) corresponding to the second chamber (10) is fixed with a second squeezing and shearing assembly (14), the first chamber (9) is communicated with the first squeezing and shearing assembly (13) and the second squeezing and shearing assembly (14) through a first guide pipe assembly (15), and the second chamber (10) is communicated with the first squeezing and shearing assembly (13) and the second squeezing and shearing assembly (14) through a second guide pipe assembly (16).

5. The mixer for producing detergents according to claim 4, wherein: the first extrusion and shearing assembly (13) comprises a rotary disc (28) and a pressurizing cylinder (29), the rotating disc (28) is connected with the end part of the rotating drum (7) at the first chamber (9) in a fixed-shaft rotating way, the first twist rod (11) penetrates through the center of the rotary table (28) and points to the inner peripheral wall of the stirring cylinder (2), and the turntable (28) is provided with a through hole matched with the cross section of the first twist rod (11), the pressurizing cylinder (29) is fixed at the end part of the rotating cylinder (7) corresponding to the first chamber (9), and a spiral impeller (30) is arranged in the pressurizing cylinder (29), the spiral impeller (30) is coaxially and fixedly connected with the rotating disc (28), the side wall of the pressurizing cylinder (29) is provided with a plurality of through holes (31), and the first extruding and shearing assembly (13) and the second extruding and shearing assembly (14) are completely identical in structure and symmetrically fixed at two ends of the rotating cylinder (7).

6. The mixer for producing detergents according to claim 5, wherein: first honeycomb duct (15) include first feed inlet (21) and first discharge gate (18) of seting up on first cavity (9) lateral wall, second check valve (22) are connected in first feed inlet (21) department, first discharge gate (18) communicate two respectively through first shunt tubes (20) the inside of pressure boost section of thick bamboo (29), connect first check valve (19) on first shunt tubes (20).

7. The mixer for producing detergents according to claim 6, further comprising: the second guide pipe (16) comprises a second feeding hole (26) and a second discharging hole (23) which are formed in the side wall of the second chamber (10), the second feeding hole (26) is connected with a fourth one-way valve (27), the second discharging hole (23) is respectively communicated with the insides of the two pressurizing barrels (29) through second flow dividing pipes (25), and the second flow dividing pipes (25) are connected with third one-way valves (24).

8. A mixer for detergent manufacture according to claim 3, characterised in that: scrape material mechanism including fixing slide bar (32) at the fried dough twist bar tip, sliding sleeve (33) have been cup jointed in the slide bar (32) outside, the one end of the directional churn (2) internal perisporium of sliding sleeve (33) is fixed with scraper blade (35), and is connected through spring (34) between slide bar (32) and scraper blade (35), and scraper blade (35) and the internal perisporium line contact of churn (2) are connected.

9. The mixer for detergent production according to claim 8, wherein: exhaust mechanism (17) are including fixing compression section of thick bamboo (36) in churn (2) lateral wall upper end, the inside sliding connection of compression section of thick bamboo (36) has piston plate two (37), and is connected through spring two (40) between piston plate two (37) and churn (2), the lower surface of piston plate two (37) is fixed with piston rod (38), piston rod (38) are pegged graft in logical groove (39) of seting up on churn (2) lateral wall, and piston rod (38) can slide from top to bottom in logical groove (39), the lower extreme of piston rod (38) is the wedge structure, the cross section of scraper blade (35) is the wedge structure with piston rod (38) lower extreme looks adaptation, and scraper blade (35) can support with the lower extreme of piston rod (38) and detain the contact.

10. The mixer for detergent production according to claim 9, wherein: an air inlet hole (44) and an air outlet hole (45) are formed in the upper portion of the side wall of the compression cylinder (36), the air inlet hole (44) is communicated with an air outlet hole (41) formed in the side wall of the stirring cylinder (2) through an exhaust pipe (42), a fifth one-way valve (43) is connected to the exhaust pipe (42), and the air outlet hole (45) is connected with a sixth one-way valve (46).