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CN-122006641-A - Anti-sticking wall reaction kettle for sodium soap processing

CN122006641ACN 122006641 ACN122006641 ACN 122006641ACN-122006641-A

Abstract

The invention relates to the technical field of sodium soap processing, in particular to a wall-sticking-preventing reaction kettle for sodium soap processing. The kettle comprises a kettle body, wherein a feed inlet and a discharge outlet are respectively arranged on the upper side and the lower side of the kettle body, a discharge valve is arranged on the kettle body at a position close to the discharge outlet, a motor is arranged on the kettle body, an output shaft of the motor is fixedly connected with a connecting rod, the connecting rod is rotationally connected with a connecting sleeve, a middle shaft is fixedly connected with the connecting sleeve, the middle shaft is rotationally connected with a uniformly distributed mounting rod, the mounting rod is rotationally connected with two fixed blades which are symmetrically distributed in the center, a movable blade is in limiting sliding connection with the fixed blades, and the movable blade is in threaded connection with the corresponding mounting rod. According to the invention, the relative positions of the fixed blades and the movable blades are changed according to the viscosity of the fluid in the kettle body, so that the integral stirring range formed by the fixed blades and the movable blades can be increased along with the increase of the viscosity of the fluid, and the energy consumption can be reduced under the premise of ensuring uniform stirring in each stage of saponification reaction.

Inventors

  • ZHANG CHUNFENG
  • ZHU FENG
  • LU YUKUN
  • ZUO LEI

Assignees

  • 淄博腾辉油脂化工有限公司

Dates

Publication Date
20260512
Application Date
20260414

Claims (10)

  1. 1. A sodium soap processing is with reation kettle of antiseized wall includes: Cauldron body (1), the upper and lower both sides of cauldron body (1) are provided with feed inlet (101) and bin outlet (102) respectively, be close to on the cauldron body (1) bin outlet (102) position is installed row material valve (2), install motor (3) on the cauldron body (1), characterized by, the output shaft rigid coupling of motor (3) has connecting rod (4), connecting rod (4) rotate and are connected with adapter sleeve (5), adapter sleeve (5) rigid coupling has axis (6), axis (6) rotate and are connected with evenly distributed's installation pole (7), installation pole (7) rotate and are connected with two fixed flabellum (8) of central symmetry distribution, fixed flabellum (8) spacing sliding connection have movable flabellum (9), movable flabellum (9) and corresponding installation pole (7) threaded connection, installation pole (7) are used for adjusting movable flabellum (9) correspond the relative position of fixed flabellum (8), be provided with on axis (6) and be used for carrying out to cauldron body (1) inner wall (1) adhesion and detect in the fluid between the fluid-scraping component (1) and the connecting rod (4) is used for detecting the viscosity.
  2. 2. The sodium soap processing anti-sticking wall reactor according to claim 1, wherein the wall scraping assembly comprises: The anti-sticking frame (11) is contacted with the inner wall of the kettle body (1), and the anti-sticking frame (11) is used for sliding along the periphery of the inner wall of the kettle body (1) and scraping fluid adhered to the inner wall of the kettle body (1).
  3. 3. The sodium soap processing anti-sticking wall reactor according to claim 2, wherein the detection assembly comprises: Torsion spring (12), rigid coupling in connecting rod (4) with between axis (6), axis (6) are provided with mounting hole (601), mounting hole (601) internal rotation be connected with connecting rod (13) of connecting rod (4) rigid coupling, connecting rod (13) with adjacent pass through bevel gear group transmission between installation pole (7), be located in mounting hole (601) adjacent two the position between installation pole (7) all rigid coupling has fixed cover (14), fixed cover (14) rotate and are connected with transmission shaft (15), adjacent two installation pole (7) with between the two transmission shaft (15) all pass through bevel gear group transmission.
  4. 4. A sodium soap processing anti-sticking wall reaction kettle according to claim 3, wherein the installation rod (7) is fixedly connected with a traction rope (16), and the traction rope (16) passes through the adjacent fixed fan blades (8) and is fixedly connected with the central shaft (6).
  5. 5. The reactor for sodium soap processing anti-sticking wall according to claim 4, wherein the width of the fixed blade (8) near one side of the traction rope (16) is larger than the width of the other side of the fixed blade by taking the axis of the installation rod (7) as a dividing line.
  6. 6. The reaction kettle with the anti-sticking wall for sodium soap processing according to claim 3, wherein a containing hole (602) is formed in one side, close to the connecting sleeve (5), of the center shaft (6), a limiting ball (17) is arranged in the containing hole (602), a hemispherical groove for limiting the limiting ball (17) is formed in the connecting rod (13), and a reset spring (18) is fixedly connected between the limiting ball (17) and the connecting sleeve (5).
  7. 7. The anti-sticking wall reaction kettle for sodium soap processing according to claim 6, wherein grease is stored in the containing hole (602), and the diameter of the limiting ball (17) is smaller than the diameter of the containing hole (602).
  8. 8. The anti-sticking wall reaction kettle for sodium soap processing according to claim 2, wherein two gathering parts (111) which are symmetrically distributed in the center are arranged at the position of the anti-sticking frame (11) close to the discharge port (102), and the gathering parts (111) are used for guiding fluid to flow into the discharge port (102).
  9. 9. The sodium soap processing is with reation kettle of antiseized wall according to claim 4, characterized in that, mounting hole (601) is close to the position rotation of mount pad (10) is connected with screw thread cover (19), screw thread cover (19) with correspond through bevel gear group transmission between mount bar (7), screw thread cover (19) threaded connection has threaded rod (20), threaded rod (20) are close to one side rigid coupling of mount pad (10) has linkage piece (21), mount pad (10) are provided with be used for holding tank (211) of linkage piece (21), mounting hole (601) are close to the position of linkage piece (21) with all be provided with extrusion sand grip (212) in holding tank (211), extrusion sand grip (212) are used for restricting the rotation of linkage piece (21), mount pad (10) with antiseized frame (11) all with axis (6) rotate and are connected.
  10. 10. The reaction kettle with the anti-sticking wall for sodium soap processing according to claim 6, wherein a scraping frame (22) is fixedly connected at a position of the fixed fan blade (8) far away from the central shaft (6) and a position of the movable fan blade (9) close to the central shaft (6), the scraping frame (22) on the fixed fan blade (8) is contacted with the adjacent movable fan blade (9) and is used for scraping fluid adhered to the adjacent movable fan blade (9), and the scraping frame (22) on the movable fan blade (9) is contacted with the adjacent fixed fan blade (8) and is used for scraping fluid adhered to the adjacent fixed fan blade (8).

Description

Anti-sticking wall reaction kettle for sodium soap processing Technical Field The invention relates to the technical field of sodium soap processing, in particular to a wall-sticking-preventing reaction kettle for sodium soap processing. Background The hard soap, namely sodium soap, belongs to a sodium salt cleaning product of higher fatty acid, has higher hardness due to the characteristic of sodium salt, higher alkali content and strong detergency, but strong skin irritation, and is mainly used for washing clothes, in the production process of sodium soap, saponification reaction is required to be carried out in a reaction kettle, during the saponification reaction, stirring blades are required to stir reaction fluid, so that two fluids are uniformly mixed, and uniform heating of the fluids is ensured, however, as the saponification reaction is carried out, the viscosity of the fluid gradually increases, the range of the stirring blades capable of driving the fluid to move in the stirring process gradually decreases along with the increase of the viscosity of the fluid, so that the fluid always keeps a flowing state in the whole reaction stage, the size specification of the stirring blades is generally selected according to the viscosity of the fluid in the later stage of the saponification reaction, the fluid viscosity is lower in the early middle stage of the saponification reaction, and the stirring blades with larger size can effectively drive the fluid, but in practice, the stage can realize full mixing of the two fluids without the need of the large stirring range, so that unnecessary energy is consumed. Disclosure of Invention The invention provides a wall-sticking-preventing reaction kettle for sodium soap processing, which aims to overcome the defect that unnecessary energy consumption exists in the middle stage before saponification reaction due to larger size specification of stirring blades in the reaction kettle. The technical embodiment of the invention is that the anti-sticking wall reaction kettle for sodium soap processing comprises a kettle body, wherein a feed inlet and a discharge outlet are respectively arranged on the upper side and the lower side of the kettle body, a discharge valve is arranged on the kettle body and close to the discharge outlet, a motor is arranged on the kettle body, an output shaft of the motor is fixedly connected with a connecting rod, the connecting rod is rotationally connected with a connecting sleeve, a center shaft is fixedly connected with the connecting sleeve, the center shaft is rotationally connected with uniformly distributed mounting rods, the mounting rods are rotationally connected with two fixed blades which are centrally and symmetrically distributed, the fixed blades are in limit sliding connection with movable blades, the movable blades are in threaded connection with the corresponding mounting rods, the mounting rods are used for adjusting the relative positions of the movable blades and the corresponding fixed blades, a wall scraping assembly for cleaning adhesive fluid on the inner wall of the kettle body is arranged on the center shaft, and a detection assembly for detecting viscosity of fluid in the kettle body is arranged between the connecting rod and the center shaft. Still further, the scraping wall component comprises a mounting seat, wherein the mounting seat is arranged at one end of the central shaft, which is far away from the connecting sleeve, the central shaft is provided with an anti-sticking frame fixedly connected with the mounting seat, the anti-sticking frame is contacted with the inner wall of the kettle body, and the anti-sticking frame is used for sliding along the peripheral side of the inner wall of the kettle body and scraping off fluid adhered to the inner wall of the kettle body. Further, the detection assembly comprises a torsion spring fixedly connected between the connecting rod and the center shaft, the center shaft is provided with a mounting hole, a connecting rod fixedly connected with the connecting rod is rotationally connected in the mounting hole, the connecting rod and the adjacent mounting rods are driven by a bevel gear set, fixing sleeves are fixedly connected at positions between the two adjacent mounting rods in the mounting hole, the fixing sleeves are rotationally connected with transmission shafts, and the two adjacent mounting rods and the transmission shafts between the two are driven by the bevel gear set. Furthermore, the installation rod is fixedly connected with a traction rope, and the traction rope passes through the adjacent fixed fan blades and is fixedly connected with the center shaft. Furthermore, the axis of the installation rod is taken as a dividing line, and the width of one side of the fixed fan blade, which is close to the adjacent traction rope, is larger than the width of the other side of the fixed fan blade. Still further, the axis is close to one side of adapter sleeve