Piperidine dropping tank with stirring function for chemical production

Abstract

The utility model relates to piperidine drop tank technical field, concretely to a kind of piperidine drop tank with stirring function for chemical production, including machine body, the stirring motor of being set in the one side of machine body, the rotating shaft of being rotatably arranged in the output end of stirring motor and key connection in machine body, the mounting plate of being set in the rotating shaft outside, the adjusting assembly of being set in the rotating shaft outside, the adjusting assembly includes two groups of fixed pipe being set in the rotating shaft outside.The piperidine drop tank with stirring function for chemical production, by setting movable scraper, and then when cleaning residue, move scraper to make it contact the inner wall of machine body, the rotation of rotating shaft will drive scraper to scrape residue in rotation at this time, avoid the accumulation of residue to affect the storage of next chemical raw material, guarantee the normal use of the device, while when not needing to clean residue, scraper will not affect the normal stirring work of the device, increase the use range of the device.

Description

Technical Field

[0001] This utility model relates to the field of piperidine dropping tank technology, specifically a piperidine dropping tank with stirring function for chemical production. Background Technology

[0002] As is well known, the chemical production process refers to the process of chemically processing raw materials to obtain valuable products. In the production process of chemical products, drip tanks are needed to store refined chemical substances such as acids, alcohols, and gases.

[0003] Currently, commonly used chemical production drop tanks with stirring functions have limited functionality. After stirring, some chemical substances will remain on the inner wall of the tank. If not cleaned in time, the accumulation of residues will affect the storage of the next chemical substance. At the same time, the residual chemical substances will corrode the tank and affect the service life of the drop tank. Summary of the Invention

[0004] Technical problems to be solved

[0005] In order to overcome the problem of residual chemicals in existing piperidine dropper tanks with stirring function used in chemical production, this utility model provides a piperidine dropper tank with stirring function used in chemical production that can clean up residues.

[0006] Technical solution

[0007] To achieve the above objectives, this utility model provides the following technical solution: a piperidine dropping tank with stirring function for chemical production, comprising a body, a stirring motor disposed on one side of the body, a rotating shaft keyed to the output end of the stirring motor and rotatably disposed within the body, a mounting plate disposed on the outside of the rotating shaft, and an adjusting assembly disposed on the outside of the rotating shaft. The adjusting assembly includes two sets of fixed tubes disposed on the outside of the rotating shaft, with connecting rods slidably disposed inside the fixed tubes. The ends of the two sets of connecting rods away from the rotating shaft are fixedly disposed to a horizontal plate. A scraper, which is a silicone scraper, is disposed on the side of the horizontal plate away from the connecting rods. Two sets of limiting rods are disposed inside the horizontal plate, with a central shaft slidably disposed on the outside of the limiting rods. Parallel fixed shafts are disposed on both sides of the mounting plate. A swing plate is rotatably disposed on the outside of the fixed shafts. The swing plate is inclined, with the two sets of swing plates inclined in opposite directions, and the side of the swing plate away from the fixed shaft is rotatably disposed on the outside of the central shaft. A driving assembly is disposed within the mounting plate.

[0008] Preferably, the horizontal plate has two sets of movable grooves on the side near the swing plate, and the limiting rod is fixedly installed in the movable groove.

[0009] Furthermore, two sets of support plates are provided on the outer side of the fixed shaft, and the side of the support plate away from the fixed shaft is fixedly installed on the outer side of the mounting plate.

[0010] Furthermore, a spring is provided at the end of the connecting rod away from the horizontal plate, and the end of the spring away from the connecting rod is fixedly installed inside the fixed tube.

[0011] In a further embodiment, the mounting plate has a groove inside, the inner wall of the groove is provided with a drive component, and the mounting plate is located between two sets of swing plates.

[0012] Based on the aforementioned scheme, the drive assembly includes a rotary motor disposed on the inner wall of the groove. The output end of the rotary motor is keyed to a first threaded tube. A rotating column is disposed at the end of the first threaded tube away from the rotary motor. A second threaded tube is disposed at the end of the rotating column away from the first threaded tube. A sleeve is screwed onto the outer side of both the first and second threaded tubes. A slider is disposed on the outer side of the sleeve. The side of the slider away from the sleeve passes through the mounting plate and is fixedly disposed therewith. A top block is disposed on the side of the movable plate away from the rotating column, and the top block is located outside the swing plate.

[0013] Furthermore, based on the aforementioned scheme, the mounting plate has two sets of sliding grooves and two sets of moving grooves inside, and the slider is slidably disposed in the sliding grooves.

[0014] Furthermore, based on the aforementioned scheme, the slide groove and the moving groove are connected, and a blocking plate is provided on the outside of the slider, and the blocking plate is slidably disposed in the moving groove.

[0015] Beneficial effects

[0016] This piperidine dropping tank for chemical production, equipped with a stirring function, features a movable scraper. When cleaning residues, the scraper is moved to contact the inner wall of the machine. The rotation of the shaft causes the scraper to remove residues as it rotates, preventing residue accumulation from affecting the storage of the next chemical raw material and ensuring the normal operation of the device. At the same time, when residues do not need to be cleaned, the scraper does not affect the normal stirring operation of the device, increasing its applicability. Attached Figure Description

[0017] Figure 1 This is a side view of the structure of this utility model;

[0018] Figure 2 This is a cross-sectional view of the structure of the body of this utility model;

[0019] Figure 3 This is a schematic diagram of the structure of the horizontal plate and the mounting plate of this utility model;

[0020] Figure 4 This is a cross-sectional view of the horizontal plate and mounting tube of this utility model;

[0021] Figure 5 This is an exploded view of the structure of the adjustment component of this utility model;

[0022] Figure 6 This is a cross-sectional view of the mounting plate of this utility model;

[0023] Figure 7 This is a schematic diagram of the structure of the drive component of this utility model.

[0024] In the diagram: 1. Body; 2. Adjustment assembly; 201. Horizontal plate; 202. Limiting rod; 203. Support plate; 204. Fixed shaft; 205. Movable groove; 206. Central shaft; 207. Connecting rod; 208. Fixed tube; 209. Swing plate; 210. Spring; 3. Drive assembly; 301. Rotary motor; 302. Sleeve; 303. First threaded tube; 304. Rotating column; 305. Second threaded tube; 306. Slider; 307. Blocking plate; 308. Movable plate; 309. Top block; 4. Stirring motor; 5. Rotating shaft; 6. Scraper; 7. Mounting plate; 8. Stirring rod; 9. Slide groove; 10. Moving groove; 11. Groove. Detailed Implementation

[0025] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0026] See Figures 1-6 A piperidine dropping tank with stirring function for chemical production includes a body 1. A stirring motor 4 is installed on the top of the body 1. The output end of the stirring motor 4 extends into the interior of the body 1 and is keyed to a rotating shaft 5. Multiple stirring rods 8 are installed on the outer side of the rotating shaft 5. When the stirring motor 4 is turned on, its output end will drive the stirring rods 8 to rotate by driving the rotating shaft 5, thereby stirring the chemical raw materials in the body 1. A mounting plate 7 and an adjustment component 2 are welded to the outer side of the rotating shaft 5. A drive component 3 is installed inside the mounting plate 7.

[0027] First, refer to Figures 2 to 5In this embodiment, the adjustment component 2 includes two sets of fixed tubes 208 bolted to the outside of the rotating shaft 5. A connecting rod 207 is slidably arranged inside the fixed tube 208. The ends of the two sets of connecting rods 207 away from the rotating shaft 5 are fixedly arranged to the horizontal plate 201. A scraper 6 is arranged on the side of the horizontal plate 201 away from the connecting rod 207. The scraper 6 is a silicone scraper. By using the silicone scraper, damage to the inner wall of the machine body 1 can be avoided. Two sets of limiting rods 202 are arranged inside the horizontal plate 201. Two sets of movable grooves 205 are opened on the side of the horizontal plate 201 near the swing plate 209. The limiting rods 202 are welded into the movable grooves 205.

[0028] A central shaft 206 is slidably mounted on the outer side of the limiting rod 202. Parallel fixed shafts 204 are mounted on both sides of the mounting plate 7. Two sets of support plates 203 are mounted on the outer side of the fixed shafts 204. The side of the support plate 203 away from the fixed shafts 204 is fixedly mounted on the outer side of the mounting plate 7. A swing plate 209 is rotatably mounted on the outer side of the fixed shafts 204. The swing plate 209 is inclined, and the two sets of swing plates 209 are inclined in opposite directions. The side of the swing plate 209 away from the fixed shafts 204 is rotatably mounted on the outer side of the central shaft 206. A circular groove is formed on the side where the swing plate 209 connects to the central shaft 206. The width of the inner wall of the circular groove is greater than the diameter of the limiting rod 202, thereby preventing the swing plate 209 from being blocked by the limiting rod 202.

[0029] Then, refer to Figures 4 to 5 In this embodiment, a spring 210 is provided at the end of the connecting rod 207 away from the horizontal plate 201. The end of the spring 210 away from the connecting rod 207 is fixedly installed inside the fixed tube 208. Thus, when the horizontal plate 201 is pushed, the spring 210 will be stretched by the connecting rod 207. When the horizontal plate 201 is no longer pushed, the spring 210 will drive the horizontal plate 201 to move back by bouncing the connecting rod 207, thereby causing the horizontal plate 201 to drive the scraper 6 to quickly return to the initial position.

[0030] When the swing plate 209 is pushed, it will swing around the fixed shaft 204. At this time, the side of the swing plate 209 connected to the central shaft 206 will push the limit rod 202 during the swing, causing the limit rod 202 to drive the horizontal plate 201 to move. The movement of the horizontal plate 201 will drive the scraper 6 to move, so that the scraper 6 will adhere to the inner wall of the machine body 1. When the rotating shaft 5 rotates, the scraper 6 will scrape off the residue.

[0031] Secondly, see Figure 6 In this embodiment, the mounting plate 7 has a groove 11 inside, and the inner wall of the groove 11 is provided with a drive component 3. The mounting plate 7 is located between two sets of swing plates 209. The mounting plate 7 has two sets of sliding grooves 9 and two sets of moving grooves 10 inside. The sliding grooves 9 and the grooves 11 are connected, and the sliding grooves 9 and the moving grooves 10 are also connected.

[0032] Again, see Figures 6 to 7 In this embodiment, the drive assembly 3 includes a rotary motor 301 disposed on the inner wall of the groove 11. The rotary motor 301 is a bidirectional motor, and its output end can rotate forward or backward. The output end of the rotary motor 301 is key-connected to a first threaded tube 303. A rotating column 304 is disposed at the end of the first threaded tube 303 away from the rotary motor 301, and a second threaded tube 305 is disposed at the end of the rotating column 304 away from the first threaded tube 303. The threads on the outer sides of the first threaded tube 303 and the second threaded tube 305 are in opposite directions. A sleeve 302 is screwed onto the outer side of both the first threaded tube 303 and the second threaded tube 305. When the first threaded tube 303 and the second threaded tube 305 rotate, the two... The sleeves 302 will move in opposite directions or in opposite directions. The operator can control the movement direction of the sleeves 302 by controlling the rotation direction of the output end of the rotary motor 301. A slider 306 is provided on the outside of the sleeves 302. The side of the slider 306 away from the sleeves 302 passes through the mounting plate 7 and is fixedly set with the movable plate 308. A top block 309 is provided on the side of the movable plate 308 away from the rotating column 304. The top block 309 is located outside the swing plate 209. The top block 309 is a ring-shaped top block with a hollow interior. The top block 309 can be replaced with a polygonal top block with a hollow interior. The diameter of the hollow part inside the top block 309 is larger than the width of the swing plate 209.

[0033] Finally, see Figure 6 In this embodiment, the slider 306 is slidably disposed in the groove 9, and a baffle plate 307 is disposed on the outside of the slider 306. The baffle plate 307 is slidably disposed in the moving groove 10. The baffle plate 307 can block the groove 11 to prevent chemical raw materials from entering the groove 11.

[0034] After the rotary motor 301 is turned on, its output end will drive the first threaded tube 303 to rotate. The rotation of the first threaded tube 303 will drive the second threaded tube 305 to rotate through the rotating column 304. The rotation of the first threaded tube 303 and the second threaded tube 305 will drive the two sets of sleeves 302 to move linearly. The movement of the sleeves 302 will drive the movable plate 308 and the top block 309 to move by driving the slider 306. When the top block 309 moves, it will push the swing plate 209.

[0035] This piperidine dropping tank for chemical production, equipped with a stirring function, features a movable scraper 6. When cleaning residues, the scraper 6 is moved to contact the inner wall of the machine body 1. The rotation of the rotating shaft 5 causes the scraper 6 to scrape away residues during rotation, preventing the accumulation of residues from affecting the storage of the next chemical raw material and ensuring the normal operation of the device. At the same time, when it is not necessary to clean residues, the scraper 6 will not affect the normal stirring operation of the device, increasing the applicability of the device.

[0036] Working principle:

[0037] When using this piperidine dropping tank with stirring function for chemical production, first place the tank in the desired location, then clean up any residue. Specifically, after turning on the rotary motor 301, its output will drive the first threaded tube 303 to rotate. The rotation of the first threaded tube 303 will drive the second threaded tube 305 to rotate via the rotating column 304. The rotation of the first threaded tube 303 and the second threaded tube 305 will cause the two sets of sleeves 302 to move linearly. The movement of the sleeves 302 will drive the movable plate via the slider 306. 308 and top block 309 are displaced. When top block 309 moves, it will push the swing plate 209. When the swing plate 209 is pushed, it will swing around the fixed shaft 204. At this time, the side of the swing plate 209 connected to the central shaft 206 will push the limit rod 202 during the swing, so that the limit rod 202 drives the horizontal plate 201 to move. The movement of the horizontal plate 201 will drive the scraper 6 to move, so that the scraper 6 will fit against the inner wall of the machine body 1. Then, the stirring motor 4 is turned on so that its output end drives the rotating shaft 5 to rotate and drive the scraper 6 to rotate. Thus, the scraper 6 can scrape off the residue during rotation.

[0038] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A piperidine dropping tank with stirring function for chemical production, characterized in that, include: Body (1); A stirring motor (4) is installed on one side of the machine body (1); A key is connected to the output end of the stirring motor (4) and the rotating shaft (5) is rotatably installed inside the machine body (1); Mounting plate (7) is set on the outside of the rotating shaft (5); An adjustment assembly (2) is provided on the outside of the rotating shaft (5). The adjustment assembly (2) includes two sets of fixed tubes (208) on the outside of the rotating shaft (5). A connecting rod (207) is slidably provided inside the fixed tube (208). The ends of the two sets of connecting rods (207) away from the rotating shaft (5) are fixedly provided to the horizontal plate (201). A scraper (6) is provided on the side of the horizontal plate (201) away from the connecting rods (207). Two sets of limiting rods (202) are provided inside the horizontal plate (201). A central shaft (206) is slidably provided on the outside of the limiting rods (202). Fixed shafts (204) are provided on both sides of the mounting plate (7). A swing plate (209) is rotatably provided on the outside of the fixed shafts (204), and the side of the swing plate (209) away from the fixed shafts (204) is rotatably provided on the outside of the central shaft (206). The drive component (3) is installed inside the mounting plate (7).

2. The piperidine dropping tank with stirring function for chemical production according to claim 1, characterized in that, The horizontal plate (201) has two sets of movable slots (205) on the side near the swing plate (209), and the limiting rod (202) is fixedly installed in the movable slots (205).

3. The piperidine dropping tank with stirring function for chemical production according to claim 1, characterized in that, Two sets of support plates (203) are provided on the outside of the fixed shaft (204), and the side of the support plate (203) away from the fixed shaft (204) is fixedly provided on the outside of the mounting plate (7).

4. The piperidine dropping tank with stirring function for chemical production according to claim 1, characterized in that, A spring (210) is provided at the end of the connecting rod (207) away from the horizontal plate (201), and the end of the spring (210) away from the connecting rod (207) is fixedly installed inside the fixed tube (208).

5. The piperidine dropping tank with stirring function for chemical production according to claim 1, characterized in that, The mounting plate (7) has a groove (11) inside, and a drive assembly (3) is provided on the inner wall of the groove (11). The mounting plate (7) is located between two sets of swing plates (209).

6. The piperidine dropping tank with stirring function for chemical production according to claim 5, characterized in that, The drive assembly (3) includes a rotary motor (301) disposed on the inner wall of the groove (11). The output end of the rotary motor (301) is key-connected to a first threaded tube (303). A rotating column (304) is disposed at the end of the first threaded tube (303) away from the rotary motor (301). A second threaded tube (305) is disposed at the end of the rotating column (304) away from the first threaded tube (303). A sleeve (302) is screwed onto the outer side of both the first threaded tube (303) and the second threaded tube (305). A slider (306) is disposed on the outer side of the sleeve (302). The side of the slider (306) away from the sleeve (302) passes through the mounting plate (7) and is fixedly disposed with the movable plate (308). A top block (309) is disposed on the side of the movable plate (308) away from the rotating column (304), and the top block (309) is located on the outer side of the swing plate (209).

7. The piperidine dropping tank with stirring function for chemical production according to claim 6, characterized in that, The mounting plate (7) has two sets of sliding grooves (9) and two sets of moving grooves (10) inside, and the slider (306) is slidably disposed in the sliding groove (9).

8. The piperidine dropping tank with stirring function for chemical production according to claim 7, characterized in that, The slide groove (9) and the moving groove (10) are connected. A baffle plate (307) is provided on the outside of the slider (306), and the baffle plate (307) is slidably disposed in the moving groove (10).

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