CN204503074U - Efficient glassed steel reaction vessels - Google Patents

Abstract

The utility model relates to a kind of reactor, especially relates to a kind of efficient glassed steel reaction vessels.Its shaft mainly solving the reactor existing for prior art is more not thorough to the stirring of material, mixes more uneven, the technical problem of the lower grade of production efficiency.The utility model comprises kettle (1), described kettle (1) upper end is connected with cycloid speed reducer (2), motor (3), cycloid speed reducer is connected with shaft (4), the middle part of shaft is connected with straight paddle (5), the lower end of shaft is connected with impeller paddle (6), straight paddle (5) includes interior oar (7), interior oar slide outside is connected with slippage oar (8), the outer surface of kettle is provided with interlayer (9), the upper end of kettle is provided with charging aperture (10), and the bottom of kettle is connected with discharging opening (11).

Description

Efficient glassed steel reaction vessels

Technical field

The utility model relates to a kind of reactor, especially relates to a kind of efficient glassed steel reaction vessels.

Background technology

At present, in the process of production chemical product, need the devices such as reactor.Chinese patent discloses a kind of gas-liquid with Combined stirring paddle or the heterogeneous stirred autoclave of gas-liquid-solid (Authorization Notice No.: CN 2483079Y), the combination of its paddle includes upper and lower two-layer oar, rotating shaft, upper-layer paddle are upper pushing-type tilted concaved fan disc turbine paddle, lower floor's oar is upper-turn-type axial-flow mixing paddle or oblique leaf turbine impeller, is connected in series up and down between upper and lower two-layer oar by rotating shaft; Upper-layer paddle is 4 to 8 blades, be symmetrically distributed in disk surrounding, and short than below disk of blade above its disk, paddle blade is circular arc type or parabolic type concave surface, concave-blade rotates in face of material in reactor, and the angle e of paddle blade upper and lower end parts line and disk 20 to 90 spends; Lower floor's oar adopts upper-turn-type axial flow type paddle or turbine impeller, and on it, equilibrium allocation has 4 to 8 blades, and the angle of each blade and horizontal plane is 20 degree to 60 degree; Be provided with multilayer many mouthfuls of tubular type finger-type gas distributors at the port of gas feed, the mouth number of multilayer many mouthfuls of tubular type finger-type gas distributors is 4 to 12 mouthfuls; Multilayer many mouthfuls of tubular type finger-type gas distributors are upper and lower two-layer many mouthfuls of tubular type finger-type gas distributors, topside position is the still diameter from Polycondensation Reactor and Esterification Reactor 0.25 to 0.35 times, lower floor position is O.15 to O.18 still diameter doubly from Polycondensation Reactor and Esterification Reactor, to doubly 1/60 scope, be provided with baffle plate from be about still diameter 1/100 from still span, barrier width is 1/14 to 1/10 times of still diameter.But the shaft of this reactor is more not thorough to the stirring of material, and mix more uneven, production efficiency is lower.

Utility model content

The utility model is to provide a kind of efficient glassed steel reaction vessels, and its shaft mainly solving the reactor existing for prior art is more not thorough to the stirring of material, mixes more uneven, the technical problem of the lower grade of production efficiency.

Above-mentioned technical problem of the present utility model is mainly solved by following technical proposals:

Efficient glassed steel reaction vessels of the present utility model, comprise kettle, described kettle upper end is connected with cycloid speed reducer, motor, and cycloid speed reducer is connected with shaft, and the middle part of shaft is connected with straight paddle, the lower end of shaft is connected with impeller paddle, straight paddle includes interior oar, and interior oar slide outside is connected with slippage oar, and the outer surface of kettle is provided with interlayer, the upper end of kettle is provided with charging aperture, and the bottom of kettle is connected with discharging opening.Can the slippage oar of slippage in the outer setting of interior oar, when rotated, slippage oar just outwards can move due to centrifugal force whole like this paddle, thus constantly clashes into the material that charging aperture falls, and by material scattering, is conducive to the mixing of material in reactor.

As preferably, the outer surface of described impeller paddle is provided with outwardly fin.Arrange fin at the outer surface of impeller paddle, when rotated, fin can break up the material be accumulated in bottom reactor to such impeller paddle, and the mixing of such material is comparatively even, and mixing effect is better.

As preferably, described kettle is connected with tempilstick, the lower end of tempilstick is positioned at the top of straight paddle.Tempilstick can monitor the temperature of straight paddle position, kettle bottom material at any time, can control charging rate at any time like this.

As preferably, the top of described kettle inner surface is provided with the many flow distribution plates vertically set up.The material that charging aperture can be passed into by the flow distribution plate of inner wall of kettle equably fan, prevents solid accumulation together to kettle everywhere.

Therefore, the utility model is arranged on the shaft of kettle can slippage oar, the fin of slippage, kettle can be made operationally better to the mixing effect of material, and the material that can be entered charging aperture by flow distribution plate carries out shunting process, prevent solid accumulation, production efficiency is higher, simple and reasonable for structure.

Accompanying drawing explanation

Accompanying drawing 1 is a kind of structural representation of the present utility model;

Accompanying drawing 2 is structural representations of oar and slippage oar in the utility model;

Accompanying drawing 3 is A portion structure for amplifying schematic diagrames of Fig. 1.

Parts, position and numbering in figure: kettle 1, cycloid speed reducer 2, motor 3, shaft 4, straight paddle 5, impeller paddle 6, interior oar 7, slippage oar 8, interlayer 9, charging aperture 10, discharging opening 11, fin 12, tempilstick 13, flow distribution plate 14.

Detailed description of the invention

Below by embodiment, and by reference to the accompanying drawings, the technical solution of the utility model is described in further detail.

Embodiment: the efficient glassed steel reaction vessels of this example, as Fig. 1, comprises kettle 1, kettle upper end is connected with cycloid speed reducer 2, motor 3, cycloid speed reducer is connected with shaft 4, and the middle part of shaft is connected with straight paddle 5, and the lower end of shaft is connected with impeller paddle 6, as Fig. 2, straight paddle 5 includes interior oar 7, and interior oar slide outside is connected with slippage oar 8, and the outer surface of kettle is provided with interlayer 9, the upper end of kettle is provided with charging aperture 10, and the bottom of kettle is connected with discharging opening 11.As Fig. 3, the outer surface of impeller paddle is provided with outwardly fin 12.Kettle is connected with tempilstick 13, the lower end of tempilstick is positioned at the top of straight paddle 5.The top of kettle inner surface is provided with the many flow distribution plates vertically set up 14.

During use, material passes into from charging aperture 10, and after motor 3 starts, shaft 4 rotates, and straight paddle 5, impeller paddle 6 can carry out stir process to material.The material reacted completely can be discharged from discharging opening 11.

The foregoing is only specific embodiment of the utility model, but architectural feature of the present utility model is not limited thereto, any those skilled in the art is in field of the present utility model, and the change done or modification are all encompassed among the scope of the claims of the present utility model.

Claims (4)

1. an efficient glassed steel reaction vessels, comprise kettle (1), it is characterized in that described kettle (1) upper end is connected with cycloid speed reducer (2), motor (3), cycloid speed reducer is connected with shaft (4), the middle part of shaft is connected with straight paddle (5), the lower end of shaft is connected with impeller paddle (6), straight paddle (5) includes interior oar (7), interior oar slide outside is connected with slippage oar (8), the outer surface of kettle is provided with interlayer (9), the upper end of kettle is provided with charging aperture (10), and the bottom of kettle is connected with discharging opening (11).

2. efficient glassed steel reaction vessels according to claim 1, is characterized in that the outer surface of described impeller paddle (6) is provided with outwardly fin (12).

3. efficient glassed steel reaction vessels according to claim 1 and 2, it is characterized in that described kettle (1) is connected with tempilstick (13), the lower end of tempilstick is positioned at the top of straight paddle (5).

4. efficient glassed steel reaction vessels according to claim 1 and 2, is characterized in that the top of described kettle (1) inner surface is provided with the many flow distribution plates vertically set up (14).