CN215028889U - Novel mechanical stirring jacket reaction kettle - Google Patents

Abstract

The utility model relates to a novel mechanical stirring jacketed reaction kettle, which comprises a power and transmission device, a stirring device and a reaction kettle tank. The utility model is characterized in that: the power and transmission device is installed on the reaction kettle through a frame and an installation bottom cover. On the upper part of the tank body, the stirring device is connected with the transmission shaft of the power and transmission device through the upper part of the coupling and the lower part of the coupling. The utility model realizes the transmission of power and the adjustment of the rotational speed through the design of the power and the transmission device, and provides constant power and rotational speed for the stirring shaft and the stirrer; The stirring effect increases the turbulent flow effect, enhances the heat exchange capacity, and strengthens the mixing effect; through the design of the reaction kettle tank, a reaction container is provided, and the operation of the material is realized.

Description

Novel mechanical stirring jacket reaction kettle

Technical Field

The utility model relates to a press from both sides cover reation kettle's field especially relates to a novel mechanical stirring press from both sides cover reation kettle with mechanical stirring.

Background

The mechanical stirring jacket reaction kettle is a special device capable of completing chemical action, physical action and other chemical process flows, is very widely applied, and requires a large number of reaction kettle devices in the fields of chemical industry, petroleum development, energy research, medicine and food and the like.

Since the development in 1912, the reaction kettle has been developed to the present, the scale is large, the demand is huge, and the annual speed increase can reach about 4%. At present, the consumption of the mechanical stirring jacket reaction kettle is gradually increased, the production capacity is synchronously increased, and the phenomenon of short supply and short demand appears at one time. We also find the important significance of researching a mechanical stirring jacket reaction kettle, the development prospect is wider and wider, and the market is larger and larger, so that the design and the manufacture of the stirring reaction kettle have great epoch significance. At present, the nominal diameter of a mechanical stirring jacket reaction kettle is increasingly larger, the thicknesses of a tank body and a jacket are continuously increased, new requirements and new standards are provided for the design and the manufacture of the jacket reaction kettle under the conditions, and the challenge difficulty is continuously increased. According to the background of the times and the weak point of the existing jacket reaction kettle, the utility model designs a novel mechanical stirring jacket reaction kettle.

Disclosure of Invention

The utility model aims at overcoming the defects of the prior art and providing a novel mechanical stirring jacket reaction kettle.

The utility model discloses a realize through following technical scheme:

the utility model provides a novel mechanical stirring jacket reation kettle, includes power and transmission, agitating unit and the reation kettle jar body, its characterized in that: the power and transmission device is arranged on the upper part of the tank body of the reaction kettle through the frame and the mounting bottom cover, and the stirring device is connected with a transmission shaft of the power and transmission device through the upper part of the coupler and the lower part of the coupler.

As the utility model discloses a preferred technical scheme, power and transmission include motor and shaft coupling upper portion, the left part at V area reduction gear is installed to the motor, the transmission shaft lower part is installed to the shaft coupling upper portion, the transmission shaft is installed inside the frame, the rack-mount is in V area reduction gear right part.

As the utility model discloses a preferred technical scheme, agitating unit include shaft coupling lower part, the shaft coupling is installed on (mixing) shaft upper portion down part, the agitator is installed to the (mixing) shaft lower part.

As the preferred technical scheme of the utility model, the reaction kettle tank body include support, takeover A and sealing device, the support rigid coupling is on the clamp cover and four equipartitions are arranged, takeover A rigid coupling is on clamp cover upper portion, the clamp cover rigid coupling is on the barrel, the barrel is with equipment flange I rigid coupling, equipment flange I is connected with equipment flange II, equipment flange II is with upper cover fixed connection, upper cover upper portion is installed hand hole, sight glass I, takeover B, sight glass II, takeover C, takeover D and takeover E, the hand hole is installed at upper cover left part, sight glass I is installed at upper cover rear portion, takeover B is installed at upper cover right rear portion, sight glass II is installed at upper cover right part, takeover C is installed at upper cover right front portion, takeover D is installed at upper cover front portion, takeover E is installed at upper cover left front portion, the sealing device is installed on the installation bottom cover, the installation bottom cover is installed on the flange, the flange is fixedly connected to the middle upper portion of the upper end enclosure, six baffles and uniform distribution are installed inside the cylinder body, the lower portion of the cylinder body is fixedly connected with the lower end enclosure, the lower portion of the jacket is fixedly connected with the jacket end enclosure, the lower portion of the lower end enclosure is provided with a connecting pipe F, and the lower portion of the jacket end enclosure is provided with a connecting pipe G.

Compared with the prior art, the beneficial effects of the utility model are that: through the design of the power and transmission device, the transmission of the power and the adjustment of the rotating speed are realized, and constant power and rotating speed are provided for the stirring shaft and the stirrer; through the design of the stirring device, the stirring effect of the reaction kettle on materials in the kettle is realized, the turbulence effect is increased, the heat exchange capability is enhanced, and the mixing effect is enhanced; through the design of the reaction kettle tank body, a reaction container is provided, and the operation of materials is realized.

Drawings

Fig. 1 is an isometric view of the present invention;

FIG. 2 is a schematic view of the structure at 1 in FIG. 1;

FIG. 3 is a schematic view of the structure at 2 in FIG. 1;

FIGS. 4 and 5 are schematic views of the structure at 3 in FIG. 1;

in the figure: 1. a power and transmission device; 101. an electric motor; 102. v belt speed reducer; 103. a frame; 104. a drive shaft; 105. an upper coupling part; 2. a stirring device; 201. a lower part of the coupling; 202. a stirring shaft; 203. a stirrer; 3. a reaction kettle tank body; 301. a support; 302. taking over the pipe A; 303. an equipment flange I; 304. an equipment flange II; 305. an upper end enclosure; 306. hand hole; 307. a sight glass I; 308. taking over the pipe B; 309. a sealing device; 310. a sight glass II; 311. installing a bottom cover; 312. c, taking over a pipe; 313. a flange; 314. taking over the pipe D; 315. taking over the pipe E; 316. a barrel; 317. a jacket; 318. a baffle plate; 319. c, taking over a pipe F; 320. a lower end enclosure; 321. a jacket end enclosure; 322. take over G.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, 2, 3, 4 and 5, fig. 1 is an isometric view of the present invention; FIG. 2 is a schematic view of the structure at 1 in FIG. 1; FIG. 3 is a schematic view of the structure at 2 in FIG. 1; fig. 4 and 5 are schematic views of the structure at 3 in fig. 1.

The utility model provides a novel mechanical stirring jacket reation kettle, includes power and transmission 1, agitating unit 2 and the reation kettle jar body 3, its characterized in that: the power and transmission device 1 is arranged on the upper part of the reaction kettle tank body 3 through a frame 103 and a mounting bottom cover 311, and the stirring device 2 is connected with a transmission shaft 104 of the power and transmission device 1 through a coupling upper part 105 and a coupling lower part 201.

The power and transmission device 1 comprises a motor 101 and a coupling upper part 105, wherein the motor 101 is installed at the left part of the V-belt speed reducer 102, the coupling upper part 105 is installed at the lower part of a transmission shaft 104, the transmission shaft 104 is installed inside a rack 103, and the rack 103 is installed at the right part of the V-belt speed reducer 102.

Agitating unit 2 include shaft coupling lower part 201, shaft coupling lower part 201 is installed on (mixing) shaft 202 upper portion, agitator 203 is installed to (mixing) shaft 202 lower part.

The reactor tank body 3 comprises a support 301, a connecting pipe A302 and a sealing device 309, wherein the support 301 is fixedly connected to a jacket 317 and four in number, the connecting pipe A302 is fixedly connected to the upper portion of the jacket 317, the jacket 317 is fixedly connected to a cylinder 316, the cylinder 316 is fixedly connected to an equipment flange I303, the equipment flange I303 is connected to an equipment flange II 304, the equipment flange II 304 is fixedly connected to an upper end enclosure 305, the upper portion of the upper end enclosure 305 is provided with a hand hole 306, a sight glass I307, a connecting pipe B308, a sight glass II 310, a connecting pipe C312, a connecting pipe D314 and a connecting pipe E315, the hand hole 306 is arranged at the left portion of the upper end enclosure 305, the sight glass I307 is arranged at the rear portion of the upper end enclosure 305, the connecting pipe B308 is arranged at the right rear portion of the upper end enclosure 305, the sight glass II 310 is arranged at the right portion of the upper end enclosure 305, the connecting pipe C312 is arranged at the right front portion of the upper end enclosure 305, the D314 is arranged at the front portion of the upper end enclosure 305, and the connecting pipe E315 is arranged at the left front portion of the upper end enclosure 305, the sealing device 309 is installed on an installation bottom cover 311, the installation bottom cover 311 is installed on a flange 313, the flange 313 is fixedly connected to the middle upper portion of the upper sealing head 305, six baffles 318 are installed inside the cylinder 316 and are uniformly distributed, the lower portion of the cylinder 316 is fixedly connected with the lower sealing head 320, the lower portion of the jacket 317 is fixedly connected with the jacket sealing head 321, a connecting pipe F319 is installed on the lower portion of the lower sealing head 320, and a connecting pipe G322 is installed on the lower portion of the jacket sealing head 321.

When a mechanical stirring jacket reaction kettle is operated in a test mode on site, the jacket reaction kettle is fixed on a base through a support 301, materials are introduced into a reaction kettle tank body 3, steam is introduced into a jacket 317 and a jacket end socket 321, then a power supply is turned on, a motor 101 starts to operate to drive a V-belt speed reducer 102 to operate and transmit power to a transmission shaft 104, the transmission shaft 104 transmits the power to a stirring shaft 202 through an upper part 105 and a lower part 201 of a coupler, the stirring shaft 202 drives a stirrer 203 to stir the materials, and meanwhile, a baffle 318 acts on the materials to increase a turbulent flow effect; in the whole process, the steam inside the jacket 317 and the jacket end socket 321 exchanges heat with the materials inside the reaction kettle tank 3 at any moment.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (4)

1. a novel mechanical stirring jacket reaction kettle, comprising power and transmission device (1), stirring device (2) and reactor tank body (3), it is characterized in that: described power and transmission device (1) pass through The frame (103) and the installation bottom cover (311) are installed on the upper part of the reactor tank body (3), and the stirring device (2) is connected to the upper part of the coupling (105) and the lower part of the coupling (201) through the upper part of the coupling (105) and the lower part of the coupling (201). The power is connected with the transmission shaft (104) of the transmission device (1). 2. A novel mechanical stirring jacketed reactor according to claim 1, characterized in that: the power and transmission device (1) comprises an electric motor (101) and a coupling upper part (105), so The motor (101) is mounted on the left part of the V-belt reducer (102), the upper part (105) of the coupling is mounted on the lower part of the drive shaft (104), and the drive shaft (104) is mounted on the frame (103) ), the frame (103) is installed on the right part of the V-belt reducer (102). 3. A novel mechanical stirring jacketed reactor according to claim 1, characterized in that: the stirring device (2) comprises a lower part (201) of a coupling, and the lower part (201) of the coupling 201) is installed on the upper part of the stirring shaft (202), and a stirrer (203) is installed on the lower part of the stirring shaft (202). 4. a novel mechanical stirring jacket reactor according to claim 1, is characterized in that: described reactor tank body (3) comprises support (301), connecting pipe A (302) and sealing device ( 309), the supports (301) are fixed on the jacket (317) with four evenly distributed, the pipe A (302) is fixed on the upper part of the jacket (317), and the jacket (317) is fixed Connected to the cylinder body (316), the cylinder body (316) is fixedly connected with the equipment flange I (303), and the equipment flange I (303) is connected with the equipment flange II (304). The blue II (304) is fixedly connected with the upper head (305), and the upper part of the upper head (305) is provided with a hand hole (306), a sight glass I (307), a nozzle B (308), a sight glass II (310) ), nozzle C (312), nozzle D (314) and nozzle E (315), the hand hole (306) is installed on the left part of the upper head (305), and the sight glass I (307) is installed on the upper seal The rear part of the head (305), the nozzle B (308) is installed on the right rear part of the upper head (305), the sight glass II (310) is installed on the right part of the upper head (305), the nozzle C ( 312) is installed at the front right of the upper head (305), the connecting pipe D (314) is installed at the front of the upper head (305), and the connecting pipe E (315) is installed at the front left of the upper head (305), The sealing device (309) is mounted on the mounting bottom cover (311), the mounting bottom cover (311) is mounted on the flange flange (313), and the flange flange (313) is fixedly connected to the upper seal In the middle and upper part of the head (305), six baffles (318) are installed inside the cylinder (316) and are evenly distributed, the lower part of the cylinder (316) is fixedly connected with the lower head (320), and the jacket The lower part of (317) is fixedly connected with the jacket head (321), the lower part of the lower head (320) is installed with a connecting pipe F (319), and the lower part of the jacket head (321) is installed with a connecting pipe G (322).

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