CN112386942A

CN112386942A - Crystallization kettle

Info

Publication number: CN112386942A
Application number: CN202110079125.8A
Authority: CN
Inventors: 苏义栋; 谭青
Original assignee: Weifang Huimi Agricultural Technology Development Co ltd
Current assignee: Weifang Huimi Agricultural Technology Development Co ltd
Priority date: 2021-01-21
Filing date: 2021-01-21
Publication date: 2021-02-23

Abstract

The invention discloses a crystallization kettle, which comprises a base and a kettle body arranged on the base, wherein the kettle body is divided into an upper bin and a lower bin through a lining plate, the upper bin is a crystallization bin, the lower bin is a discharge bin, a cooling mechanism and a knocking mechanism are arranged in the crystallization bin, and a material pushing mechanism is arranged in the discharge bin. According to the crystallization kettle, the crystallization of materials in the crystallization kettle is more uniform through the cooling mechanism, the knocking mechanism and the electric heating wires in the knocking plate in the knocking mechanism, the materials adhered to the inner wall of the crystallization kettle are scraped off at the same time, the heat exchange capacity is guaranteed, the crystallization effect is better, the material pushing mechanism is used for preventing crystals from blocking the discharge hole, and therefore the working efficiency of the crystallization kettle is improved.

Description

Crystallization kettle

Technical Field

The invention relates to the technical field of crystallization kettles, in particular to a crystallization kettle.

Background

The crystallization kettle is a crystallization device which needs chilled water or refrigerant water to be rapidly cooled in an interlayer after material mixing reaction, and the key links of the crystallization kettle are the size of the area of the interlayer, the structural form and the material outlet form of a stirrer, high-precision polishing in a tank body and the requirement of no dead angle in cleaning in the tank body so as to meet the use conditions of the process.

The phenomenon that the crystallization is uneven easily takes place for current crystallization kettle material, leads to the product quality unstable, and it is very easily to bond some materials on the inner wall of crystallization kettle to cause crystallization kettle and external heat exchange capacity variation, influences the crystallization effect, and after the crystallization, when taking out the crystallization material, the discharge opening is blockked up easily to the crystallization kettle's work efficiency is reduced to the crystallization kettle simultaneously.

Disclosure of Invention

The invention aims to solve the defects of the prior art and provides a crystallization kettle.

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

a crystallization kettle comprises a base and a kettle body arranged on the base, wherein the kettle body is divided into an upper bin and a lower bin through a lining plate, the upper bin is a crystallization bin, the lower bin is a discharge bin, a cooling mechanism and a knocking mechanism are arranged in the crystallization bin, and a material pushing mechanism is arranged in the discharge bin;

the cooling mechanism comprises a hollow shaft rotatably arranged in the kettle body and a plurality of annular cooling bins connected with the outer wall of the hollow shaft through a connecting plate, the outer wall of each annular cooling bin, which is close to the hollow shaft, is connected with two water through holes of the hollow shaft through a water pipe, a water-stop plate used for separating the two water through holes is obliquely arranged at the two water through holes in the hollow shaft, the top of the hollow shaft is connected with a water outlet of a water pump through a water pipe, a water inlet of the water pump extends into a cooling water storage tank through a water pipe, a first bevel gear is arranged at the upper part of the hollow shaft, the first bevel gear is connected with a second bevel gear in a meshing manner, the second bevel gear is driven by a motor, the water inlet at the top of the hollow shaft and;

two slide bars are arranged on a guide seat on the outer wall of the annular cooling bin, the two slide bars are connected with the guide seat in a vertical sliding manner, an inclined opening boss is arranged at the top of the kettle body, an annular groove which is inclined downwards is formed in the bottom surface of the inclined opening boss, the top ends of the two slide bars are arranged in the annular groove in a sliding manner, a plurality of strip-shaped guide blocks are arranged on the slide bars, and a through groove matched with the strip-shaped guide blocks is formed in the guide seat;

the knocking mechanism comprises two knocking plates respectively hinged to the left end and the right end of the annular cooling bin and a scraper arranged at one end of each knocking plate in a sliding mode and in contact with the inner wall of the kettle body, one end, far away from the scraper, of each knocking plate penetrates through the corresponding sliding rod and is provided with a limiting block, an ice breaking plate is arranged below the limiting block and is arranged on one side of the mounting seat in a vertically sliding mode, and a first reset spring is arranged between the ice breaking plate and the mounting seat;

the ice breaking plate is provided with two ice breaking cones, the ice breaking cones are connected with the ice breaking plate in a left-right sliding mode, the ice breaking plate is connected with one end of a second return spring, and the other end of the second return spring is connected with the ice breaking cones;

the pushing equipment includes the limiting plate that is located the welt below, is located the mounting panel of limiting plate below, sets up respectively in two logical flitchs at both ends about the mounting panel, set up in a plurality of logical material pestles of logical flitch below and set up respectively in the discharge gate at both ends about cauldron body bottom, both ends are provided with the scraping wings respectively about the mounting panel bottom, the scraping wings passes through the connecting rod and is connected with the mounting panel, the one end that leads to the flitch was kept away from to the logical material pestle slides and sets up in the scraping wings.

Further, the bottom of one end, close to the inner wall of the kettle body, of the knocking plate is provided with a baffle, and one side of the baffle is connected with the lower portion of one side of the scraper through a third return spring.

Further, the kettle inner wall of the crystal bin is sequentially provided with a heat insulation layer, a cooling layer and a heat conduction layer from outside to inside, one side of the upper part of the cooling layer is connected with a water outlet of the water pump through a water pipe, and the other side of the lower part of the cooling layer is connected with a water inlet at the bottom of the cooling water storage tank through a water pipe.

Further, strike and seted up the heating chamber in the board, the heating intracavity is provided with multiunit electric heating wire, electric heating wire is connected with the control switch electricity, strike the material of board and heat-conducting layer and all adopt the heat conduction material, control switch specifically is battery and the shift knob who sets up at cauldron body surface.

Further, the thermal insulation layer comprises a hard plastic shell arranged on the outer surface and a foam lining arranged inside the hard plastic shell.

Furthermore, it is used for striking the gliding logical groove of board to open in the slide bar, be provided with the buffer board in the logical inslot wall, the material of buffer board adopts the rubber material, be provided with a plurality of horizontal lax holes in the buffer board.

Further, the limiting plate sets up on cauldron internal wall, limiting plate bottom symmetry is provided with two briquettings, the briquetting is located directly over the discharging pipe, set up on the mounting panel with briquetting complex logical groove, lead to the flitch and slide and set up in leading to the inslot, lead to flitch top through fourth reset spring and lead to inslot wall connection, the mounting panel sets up in the hollow shaft bottom.

Furthermore, the cross section of one side of the pressing block, which is in contact with the material passing plate, is in an inclined upward slope shape.

Further, the bottom of the material passing pestle is connected with a conical ejector pin through a connecting block, an external thread is arranged on the outer wall of the connecting block, and an internal thread hole screwed with the external thread is arranged in the large diameter of the conical ejector pin.

Furthermore, a through trough is arranged in the left end and the right end of the lining plate, and an electromagnetic valve is arranged in the through trough.

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

according to the crystallization kettle, the crystallization of materials in the crystallization kettle is more uniform through the cooling mechanism, the knocking mechanism and the electric heating wires in the knocking plate in the knocking mechanism, the materials adhered to the inner wall of the crystallization kettle are scraped off at the same time, the heat exchange capacity is guaranteed, the crystallization effect is better, the material pushing mechanism is used for preventing crystals from blocking the discharge hole, and therefore the working efficiency of the crystallization kettle is improved.

Drawings

FIG. 1 is a schematic view of the overall structure of a crystallization kettle according to the present invention;

FIG. 2 is a schematic diagram of the internal structure of a kettle body in a crystallization kettle according to the present invention;

FIG. 3 is a front view of the internal structure of a cooling mechanism in a crystallization kettle according to the present invention;

FIG. 4 is an enlarged view at B in FIG. 3;

FIG. 5 is a top view of the internal structure of a cooling mechanism in a crystallization kettle according to the present invention;

FIG. 6 is a side cross-sectional view taken at A-A of FIG. 3;

FIG. 7 is a schematic view of the internal structure of a striking plate in a crystallization kettle according to the present invention;

FIG. 8 is a schematic view of a driving mechanism for a hollow spindle of a crystallization vessel according to the present invention;

FIG. 9 is a schematic view of the internal structure of a pushing mechanism in a crystallization kettle according to the present invention;

FIG. 10 is a schematic structural diagram of a briquette in a crystallization kettle according to the present invention;

FIG. 11 is a schematic view of the internal mechanism of a feed pestle in a crystallization kettle according to the present invention.

In the figure: 1. a base; 2. a kettle body; 21. a liner plate; 22. a bevel boss; 23. a slide bar; 24. a buffer plate; 25. a thermal insulation layer; 26. a cooling layer; 27. a heat conductive layer; 3. a cooling mechanism; 31. a hollow shaft; 32. a connecting plate; 33. an annular cooling bin; 34. a water-stop sheet; 35. a first bevel gear; 36. a second bevel gear; 4. a knocking mechanism; 41. knocking the plate; 42. a squeegee; 43. an ice breaking plate; 44. a mounting seat; 45. breaking ice cones; 46. a first return spring; 47. a second return spring; 5. a material pushing mechanism; 51. a limiting plate; 52. mounting a plate; 53. a material passing plate; 54. a material feeding pestle; 55. briquetting; 56. a material pushing plate; 6. and a cooling water storage tank.

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.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1-2, a crystallization kettle comprises a base 1 and a kettle body 2 arranged on the base 1, wherein the kettle body 2 is divided into an upper bin and a lower bin by a lining plate 21, the upper bin is a crystallization bin, the lower bin is a discharge bin, a cooling mechanism 3 and a knocking mechanism 4 are arranged in the crystallization bin, and a material pushing mechanism 5 is arranged in the discharge bin;

referring to FIGS. 1-8; the cooling mechanism 3 comprises a hollow shaft 31 rotatably arranged in the kettle body 2 and a plurality of annular cooling bins 33 connected with the outer wall of the hollow shaft 31 through a connecting plate 32, the outer wall of each annular cooling bin 33 close to the hollow shaft 31 is connected with two water through holes of the hollow shaft 31 through a water pipe, a water-stop plate 34 used for separating the two water through holes is obliquely arranged at the position of the two water through holes in the hollow shaft 31, the top of the hollow shaft 31 is connected with a water outlet of a water pump through a water pipe, a water inlet of the water pump extends into the cooling water storage tank 6 through a water pipe, a first bevel gear 35 is arranged at the upper part of the hollow shaft 31, the first bevel gear 35 is in meshing connection with a second bevel gear 36, the second bevel gear 36 is driven by a motor, the water inlet at the top of the hollow;

referring to FIGS. 1-3; two slide bars 23 are arranged on a guide seat on the outer wall of the annular cooling bin 33, the two slide bars 23 are connected with the guide seat in a vertical sliding manner, an inclined opening boss 22 is arranged at the top of the kettle body 2, a downward inclined annular groove is formed in the bottom surface of the inclined opening boss 22, the top ends of the two slide bars 23 are arranged in the annular groove in a sliding manner, a plurality of strip-shaped guide blocks are arranged on the slide bars 23, and a through groove matched with the strip-shaped guide blocks is formed in the guide seat;

referring to FIGS. 1-8; the knocking mechanism 4 comprises two knocking plates 41 respectively hinged to the left end and the right end of the annular cooling bin 33 and a scraper 42 arranged at one end of each knocking plate 41 and in contact with the inner wall of the kettle body 2 in a sliding mode, one end, far away from the scraper 42, of each knocking plate 41 penetrates through the corresponding sliding rod 23 and is provided with a limiting block, an ice breaking plate 43 is arranged below each limiting block, the ice breaking plate 43 is arranged on one side of the corresponding mounting seat 44 in a vertically sliding mode, and a first reset spring 46 is arranged between each ice breaking plate 43 and the corresponding mounting seat 44;

refer to fig. 4, 6; the ice breaking plate 43 is provided with two ice breaking cones 45, the ice breaking cones 45 are connected with the ice breaking plate 43 in a left-right sliding manner, the ice breaking plate 43 is connected with one end of a second return spring 47, and the other end of the second return spring 47 is connected with the ice breaking cones 45;

referring to fig. 2, 9-10; the material pushing mechanism 5 comprises a limiting plate 51 located below the lining plate 21, a mounting plate 52 located below the limiting plate 51, two material passing plates 53 respectively arranged at the left end and the right end of the mounting plate 52, a plurality of material passing pestles 54 arranged below the material passing plates 53, and material outlets respectively arranged at the left end and the right end of the bottom of the kettle body 2, material pushing plates 56 are respectively arranged at the left end and the right end of the bottom of the mounting plate 52, the material pushing plates 56 are connected with the mounting plate 52 through connecting rods, and one ends, far away from the material passing plates 53, of the material passing pestles.

Further, with reference to fig. 3; the bottom of one end of the knocking plate 41 close to the inner wall of the kettle body 2 is provided with a baffle, and one side of the baffle is connected with the lower part of one side of the scraping plate 42 through a third return spring.

Further, with reference to fig. 2-3; the inner wall of the kettle body 2 of the crystallization bin is sequentially provided with a heat insulation layer 25, a cooling layer 26 and a heat conduction layer 27 from outside to inside, one side of the upper part of the cooling layer 26 is connected with a water outlet of a water pump through a water pipe, and the other side of the lower part of the cooling layer 26 is connected with a water inlet at the bottom of the cooling water storage tank 6 through a water pipe.

Further, refer to fig. 7; the heating cavity is formed in the knocking plate 41, a plurality of groups of electric heating wires are arranged in the heating cavity, the electric heating wires are electrically connected with the control switch, the knocking plate 41 and the heat conducting layer are made of heat conducting materials, and the control switch is specifically a battery and a switch button which are arranged on the surface of the kettle body 2.

Further, with reference to fig. 2-3; the insulation layer 25 comprises a rigid plastic shell disposed on the outer surface and a foam liner disposed inside the rigid plastic shell.

Further, refer to fig. 3, 4; a through groove used for sliding of the knocking plate 41 is formed in the sliding rod 23, a buffer plate 24 is arranged in the inner wall of the through groove, the buffer plate 24 is made of rubber, and a plurality of transverse loosening holes are formed in the buffer plate 24.

Further, refer to fig. 9; limiting plate 51 sets up on the 2 inner walls of the cauldron body, and limiting plate 51 bottom symmetry is provided with two briquetting 55, and briquetting 55 is located directly over the discharging pipe, has seted up on the mounting panel 52 with briquetting 55 complex logical groove, leads to flitch 53 and slides and set up in leading to the inslot, leads to flitch 53 top through fourth reset spring and lead to inslot wall connection, and mounting panel 52 sets up in hollow shaft 31 bottom.

Further, with reference to fig. 9-10; the cross section of one side of the pressing block 55 contacting with the material passing plate 53 is in a slope shape inclining upwards.

Further, refer to fig. 9, 11; the bottom of the material penetrating pestle 54 is connected with a conical ejector pin through a connecting block, an external thread is arranged on the outer wall of the connecting block, and an internal thread hole screwed with the external thread is arranged in the large diameter of the conical ejector pin.

Further, referring to fig. 2; open in the both ends about the welt 21 and lead to the silo, lead to the silo and be provided with the solenoid valve in.

The working principle is as follows: when the device is used, raw materials to be crystallized are firstly led into the kettle body 2, the starting motor drives the hollow shaft 31 to rotate, the annular cooling bin 33 is further driven to rotate through the connecting plate 32 on the hollow shaft 31, the raw materials are stirred, the slide rod 23 is further driven to rotate in the beveled boss 22, the slide rod 23 is driven to slide in the guide seat on the outer wall of the annular cooling bin 33, the knocking plate 41 is further driven to swing on the upper part of the annular cooling bin 33, and the scraping plates 42 at one end of the knocking plate 41 are driven to rotate and scrape the raw materials adhered to the inner wall of the kettle body 2 up and down; then, a switch button is pressed down to electrify the electric heating wire in the knocking plate 41 so as to heat the raw materials;

after heating for a period of time, closing the switch button to cut off the electric heating wire, starting the water pump to introduce cooling water into the cooling layer 26 in the inner wall of the kettle body 2 of the crystallization bin, and introducing the cooling water into the cooling water storage tank 6 from a water outlet at the bottom of the cooling layer 26 through a water pipe; meanwhile, water is poured into the hollow shaft 31, cooling water in the hollow shaft 31 is blocked by the water blocking plate 34, so that the cooling water flows through a water pipe through a water through hole and flows into the annular cooling bin 33, then flows back to the hollow shaft 31 from another water port of the annular cooling bin 33, and finally flows back to the cooling water storage tank 6 from the bottom of the hollow shaft 31, thereby realizing circulating cooling and crystallizing the raw materials;

wherein, crystal substances are bonded on the inner wall of the kettle body 2 of the crystallization bin and the surface of the annular cooling bin 33; the crystallized substances on the inner wall of the kettle body 2 of the crystallization bin are scraped off by the scraping plate 42 at one end of the knocking plate 41 driven by the slide bar 23; the crystalline substance on the surface of the annular cooling bin 33 drives the limiting block at the other end of the knocking plate 41 to extrude the ice breaking plate 43 to slide downwards in the mounting seat 44 on the outer wall of the hollow shaft 31 through the sliding rod 23, so as to drive the ice breaking cones 45 to contact with the surface of the annular cooling bin 33, further drive the two ice breaking cones 45 to slide towards two ends of the ice breaking plate 43 along the surface of the annular cooling bin 33 under the action of pressure, further enable the crystalline substance on the surface of the ice breaking cones 45 to be scraped off, and meanwhile, the ice breaking cones 45 slide along the surface of the annular cooling bin 33 to prevent the annular cooling bin 33 from being punctured;

after a period of time, open the solenoid valve in the welt 21 and make the leading-in play feed bin of crystalline substance, hollow shaft 31 drives the scraping wings 56 of mounting panel 52 bottom this moment and collects the discharging pipe department to the cauldron body 2 to crystalline substance, and logical flitch 53 in the hollow shaft 31 mounting panel 52 contacts with the briquetting 55 of limiting plate 51 bottom simultaneously, and then drives logical material pestle 54 bottom logical flitch 53 and dredge the crystalline substance of discharging pipe department, and the ejection of compact of being convenient for prevents to block up.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. A crystallization kettle comprises a base (1) and a kettle body (2) arranged on the base (1), and is characterized in that the kettle body (2) is divided into an upper bin and a lower bin through a lining plate (21), wherein the upper bin is a crystallization bin, the lower bin is a discharge bin, a cooling mechanism (3) and a knocking mechanism (4) are arranged in the crystallization bin, and a material pushing mechanism (5) is arranged in the discharge bin;

the cooling mechanism (3) comprises a hollow shaft (31) rotatably arranged in the kettle body (2) and a plurality of annular cooling bins (33) connected with the outer wall of the hollow shaft (31) through connecting plates (32), the outer walls of the annular cooling bins (33) close to the hollow shaft (31) are connected with two water through holes of the hollow shaft (31) through water pipes, water-stop plates (34) used for separating the two water through holes are obliquely arranged in the hollow shaft (31) at the positions of the two water through holes, the top of the hollow shaft (31) is connected with a water outlet of a water pump through a water pipe, a water inlet of the water pump extends into the cooling water storage tank (6) through a water pipe, a first bevel gear (35) is arranged at the upper part of the hollow shaft (31), the first bevel gear (35) is in meshing connection with a second bevel gear (36), the second bevel gear (36) is driven by a motor, and the water inlet at the top of the hollow shaft (, a sealing ring is arranged between the hollow shaft (31) and the water pipe;

two sliding rods (23) are arranged on a guide seat on the outer wall of the annular cooling bin (33), the two sliding rods (23) are connected with the guide seat in a vertical sliding mode, an inclined opening boss (22) is arranged at the top of the kettle body (2), a downward inclined annular groove is formed in the bottom surface of the inclined opening boss (22), the top ends of the two sliding rods (23) are arranged in the annular groove in a sliding mode, a plurality of strip-shaped guide blocks are arranged on the sliding rods (23), and a through groove matched with the strip-shaped guide blocks is formed in the guide seat;

the knocking mechanism (4) comprises two knocking plates (41) respectively hinged to the left end and the right end of the annular cooling bin (33) and a scraper (42) arranged at one end of each knocking plate (41) in a sliding mode and in contact with the inner wall of the kettle body (2), one end, far away from the scraper (42), of each knocking plate (41) penetrates through the sliding rod (23) and is provided with a limiting block, an ice breaking plate (43) is arranged below each limiting block, the ice breaking plate (43) is arranged on one side of the mounting seat (44) in a vertically sliding mode, and a first reset spring (46) is arranged between each ice breaking plate (43) and the mounting seat (44);

the ice breaking plate (43) is provided with two ice breaking cones (45), the ice breaking cones (45) are connected with the ice breaking plate (43) in a left-right sliding mode, the ice breaking plate (43) is connected with one end of a second return spring (47), and the other end of the second return spring (47) is connected with the ice breaking cones (45);

pushing equipment (5) including limiting plate (51) that are located welt (21) below, mounting panel (52) that are located limiting plate (51) below, set up respectively in mounting panel (52) about two logical flitch (53) at both ends, set up in a plurality of logical material pestle (54) of logical flitch (53) below and set up respectively in the discharge gate at both ends about cauldron body (2) bottom, both ends are provided with scraping wings (56) respectively about mounting panel (52) bottom, scraping wings (56) are connected with mounting panel (52) through the connecting rod, the one end that logical flitch (53) were kept away from in logical material pestle (54) slides and sets up in scraping wings (56).

2. The crystallization kettle according to claim 1, wherein a baffle is arranged at the bottom of one end of the knocking plate (41) close to the inner wall of the kettle body (2), and one side of the baffle is connected with the lower part of one side of the scraping plate (42) through a third return spring.

3. The crystallization kettle according to claim 1, wherein the inner wall of the kettle body (2) of the crystallization bin is sequentially provided with a heat insulation layer (25), a cooling layer (26) and a heat conduction layer (27) from outside to inside, one side of the upper part of the cooling layer (26) is connected with a water outlet of a water pump through a water pipe, and the other side of the lower part of the cooling layer (26) is connected with a water inlet at the bottom of the cooling water storage tank (6) through a water pipe.

4. The crystallization kettle according to claim 1, wherein a heating cavity is formed in the tapping plate (41), a plurality of groups of electric heating wires are arranged in the heating cavity, the electric heating wires are electrically connected with the control switch, the tapping plate (41) and the heat conducting layer are both made of heat conducting materials, and the control switch is specifically a battery and a switch button which are arranged on the surface of the kettle body (2).

5. A crystallisation vessel according to claim 3, wherein the insulation layer (25) comprises a rigid plastics shell disposed on the outer surface and a foam liner disposed within the rigid plastics shell.

6. The crystallization kettle according to claim 1, wherein a through groove for sliding the knocking plate (41) is formed in the sliding rod (23), a buffer plate (24) is arranged in the inner wall of the through groove, the buffer plate (24) is made of rubber, and a plurality of transverse loosening holes are formed in the buffer plate (24).

7. The crystallization kettle according to claim 6, wherein the limiting plate (51) is arranged on the inner wall of the kettle body (2), the bottom of the limiting plate (51) is symmetrically provided with two pressing blocks (55), the pressing blocks (55) are positioned right above the discharging pipe, the mounting plate (52) is provided with a through groove matched with the pressing blocks (55), the through plate (53) is slidably arranged in the through groove, the top of the through plate (53) is connected with the through groove inner wall through a fourth reset spring, and the mounting plate (52) is arranged at the bottom of the hollow shaft (31).

8. A crystallization kettle according to claim 7, characterized in that the side of the pressure block (55) contacting the material passing plate (53) is in the shape of a slope inclined upwards in cross section.

9. The crystallization kettle according to claim 1, wherein the bottom of the feed pestle (54) is connected with a conical thimble through a connecting block, the outer wall of the connecting block is provided with an external thread, and the conical thimble is internally provided with an internal thread hole screwed with the external thread in the major diameter.

10. The crystallization kettle according to claim 1, wherein a feed trough is arranged in each of the left and right ends of the lining plate (21), and an electromagnetic valve is arranged in the feed trough.