CN203807219U - Tubular mechanical mixing condenser - Google Patents

Abstract

The utility model provides a tubular mechanical mixing condenser comprising a fluid delivery pipe and a multistage agitating mechanism, wherein the fluid delivery pipe is used for delivering fluid; the multistage agitating mechanism is used for performing multistage agitating on fluid in the fluid delivery pipe and comprises a prime mover, a power transmission component and multistage agitating valves, wherein the agitating valves are connected with the prime mover through the power transmission component and arranged in the fluid delivery pipe, central axes of the agitating valves are parallel to or superposed with the axis, where the fluid delivery pipe is located, of the fluid delivery pipe, and the outer edge linear velocities of the multistage agitating valves are gradually reduced along the flow direction of the fluid. The tubular mechanical mixing condenser provided by the utility model has the advantages that the coagulation process of sewage is performed in a pipeline, so that the complex process for constructing a coagulation tank is avoided, and the cost is reduced; meanwhile, the requirement on a site is reduced, so that the arrangement flexibility of the mixing condenser is improved.

Description

A kind of tubular type Mechanical coagulation device

Technical field

The utility model relate to sewage disposal and give water treatment field, particularly a kind of tubular type Mechanical coagulation device.

Background technology

In prior art; when being carried out to coagulating treatment, suspended substance in feedwater, sewage conventionally adopt coagulation basin to carry out; coagulation basin is divided into grizzly bar coagulation basin, Mechanical coagulation pond, lattice plate coagulation basin etc.; general feedwater, sewage residence time in coagulation basin are 15-30min; for the coagulation time of contact percolation coagulation basin be only 3-5min; conventionally, more than coagulation basin projected depth reaches 4m, generally take skeleton construction.Feedwater, waste water treatment engineering for treatment capacity lower than 5000m3/d, as adopt skeleton construction, exist coagulation basin pool wall spacing too small, be not easy to the reinforced concrete construction demoulding, civil engineering inconvenience, operating performance is unstable, is not easy to arrange on stream etc. problem be therefore not suitable for adopting skeleton construction.

Summary of the invention

The purpose of this utility model is to overcome the deficiencies in the prior art, and a kind of tubular type Mechanical coagulation device is provided, and is that small displacement sewage below 5000M3/D is processed for quantity discharged.

The concrete scheme of a kind of tubular type Mechanical coagulation device that for achieving the above object, the utility model provides is:

A kind of tubular type Mechanical coagulation device, comprising: fluid delivery tube, carry for convection cell; And stirring mechanism, for the fluid of described fluid delivery tube is stirred, described stirring mechanism comprises primover, power transmission component and stirring arm, described stirring arm is connected with described primover by described power transmission component, described stirring arm is arranged in described fluid delivery tube, and the axis of the central shaft of described stirring arm and the described fluid delivery tube at its place is parallel or overlap; In direction, be provided with multistage described stirring mechanism along flowing to of described fluid, successively decrease gradually along the direction that flows to of described fluid along the outer linear velocity of the described stirring arm that flows to the described stirring mechanisms at different levels in direction of described fluid.

As such scheme preferably, successively decrease gradually along the diameter that flows to the stirring arms at different levels that direction distributes of described fluid.

As such scheme preferably, the stirring mechanism arranging in direction along flowing to of described fluid comprises three grades of described stirring mechanisms, described fluid delivery tube is straight line transfer lime.

As such scheme preferably, described power transmission component is transmission shaft, three described stirring arms are axially set on described transmission shaft, one end of described transmission shaft is connected with described primover.

As such scheme preferably, described power transmission component comprises output shaft, conical insert wheels and input shaft, described output shaft and described input shaft are perpendicular, two cone gears in described conical insert wheels are arranged at respectively on described output shaft and described input shaft, one end of described output shaft is connected with described primover, and described stirring arm is axially set on described input shaft.

As such scheme preferably, described Multi-stage stirring mechanism is three grades of stirring mechanisms that include three grades of described stirring arms, described fluid delivery tube is the L-type transfer lime being made up of straight line transfer lime one and straight line transfer lime two, in described straight line transfer lime one, be provided with stirring arm described in two-stage, in described straight line transfer lime two, be provided with another grade of described stirring arm, described primover comprises primover one and primover two, described power transmission component comprises power transmission component one and power transmission component two, described in two-stage in described straight line transfer lime one, stirring arm is connected with described primover one by described power transmission component one, another grade of described stirring arm in described straight line transfer lime two is connected with described primover two by described power transmission component two.

As such scheme preferably, described power transmission component one includes output shaft, conical insert wheels and input shaft with power transmission component two, described output shaft and described input shaft are perpendicular, two cone gears in described conical insert wheels are arranged at respectively on described output shaft and described input shaft, one end of output shaft in described power transmission component one is connected with described primover one, one end of output shaft in described power transmission component two is connected with described primover two, and described stirring arm is axially set on described input shaft.

As such scheme preferably, described power transmission component one is transmission shaft with power transmission component two, described stirring arm is axially set on described transmission shaft.

As such scheme preferably, described power transmission component one comprises output shaft, conical insert wheels and input shaft, described output shaft and described input shaft are perpendicular, two cone gears in described conical insert wheels are arranged at respectively on described output shaft and described input shaft, one end of output shaft in described power transmission component one is connected with described primover one, described in two-stage in described straight line transfer lime one, stirring arm is axially set on described input shaft, and described power transmission component two is transmission shaft.

As such scheme preferably, described power transmission component two comprises output shaft, conical insert wheels and input shaft, described output shaft and described input shaft are perpendicular, two cone gears in described conical insert wheels are arranged at respectively on described output shaft and described input shaft, one end of output shaft in described power transmission component two is connected with described primover two, another grade of described stirring arm in described straight line transfer lime two is axially set on described input shaft, and described power transmission component one is transmission shaft.

The utility model has the advantages that: this tubular type Mechanical coagulation device comprises liquid delivery tube and Multi-stage stirring mechanism, the coagulation process of sewage is carried out in pipeline, the complicated technology of having avoided building coagulation basin reduces the requirement in place simultaneously, and the handiness that coagulation device is laid is increased.

Brief description of the drawings

The structural representation of the embodiment mono-of the tubular type mechanism that Fig. 1 provides for the utility model;

The structural representation of the embodiment bis-of the tubular type mechanism that Fig. 2 provides for the utility model, wherein Fig. 2 (a) is front view, Fig. 2 (b) is vertical view;

The structural representation of the embodiment tri-of the tubular type mechanism that Fig. 3 provides for the utility model, wherein Fig. 3 (a) is front view, Fig. 3 (b) is the vertical view of a straight line transfer lime part, and Fig. 3 (c) is the vertical view of straight line transfer lime two parts;

The structural representation of the embodiment tetra-of the tubular type mechanism that Fig. 4 provides for the utility model;

The structural representation of the embodiment five of the tubular type mechanism that Fig. 5 provides for the utility model, wherein Fig. 5 (a) is front view, Fig. 5 (b) is the vertical view of a straight line transfer lime part;

The structural representation of the embodiment six of the tubular type mechanism that Fig. 6 provides for the utility model, wherein Fig. 6 (a) is front view, Fig. 6 (b) is the vertical view of straight line transfer lime two parts.

Embodiment

Describe embodiment of the present utility model below in detail, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has the element of identical or similar functions from start to finish.Be exemplary below by the embodiment being described with reference to the drawings, only for explaining the utility model, and can not be interpreted as restriction of the present utility model.

In description of the present utility model, it will be appreciated that, orientation or the position relationship of the instructions such as term " " center ", " on ", D score, 'fornt', 'back', " left side ", " right side ", " vertically ", " level ", " top ", " end " " interior ", " outward " be based on orientation shown in the drawings or position relationship; be only the utility model and simplified characterization for convenience of description; instead of the device of instruction or hint indication or element must have specific orientation, with specific orientation structure with operate, therefore can not be interpreted as restriction of the present utility model.

In description of the present utility model, it should be noted that, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, and for example, can be to be fixedly connected with, and can be also to removably connect, or connect integratedly; Can be to be directly connected, also can indirectly be connected by intermediary, can be the connection of two element internals.For the ordinary skill in the art, can particular case understand the concrete meaning of above-mentioned term in the utility model.

As shown in Fig. 1-6, the utility model provides a kind of tubular type Mechanical coagulation device, comprising: fluid delivery tube 1, carry for convection cell, three grades of stirring mechanisms, for the fluid of described fluid delivery tube is carried out to Multi-stage stirring, three grades of described stirring mechanisms comprise electric motor 2, power transmission component and three grades of stirring arms 3, described stirring arm 3 is connected with described electric motor 2 by described power transmission component, described stirring arm 3 is arranged in described fluid delivery tube 1, the axis of the central shaft of described stirring arm and the described fluid delivery tube at its place is parallel or overlap, the diameter of three grades of described stirring arms that direction distributes that flows to along described fluid successively decreases gradually, the outer linear velocity of three grades of described stirring arms is successively decreased gradually along the direction that flows to of described fluid.

Principle of work is: in the fluid incoming fluid transfer lime that sewage and coagulating agent mix, electric motor sends power to stirring arm by power transmission component, stirring arm convection cell stirs, and three grades of stirring arms are set, meanwhile, make the stirring linear velocity of the three grades of stirring arm convection cells state that tapers off, to meet the requirement of coagulation process, therefore the diameter of three grades of stirring arms can be successively decreased gradually along direction of flow, also can adopt other forms of speed change that the linear velocity of three grades of stirring rakes is successively decreased.

Embodiment 1

As shown in Figure 1, in the present embodiment, described fluid delivery tube 1 is straight line transfer lime, and described power transmission component is that 4, three described stirring arms 3 of transmission shaft are axially set on described transmission shaft 4, and one end of described transmission shaft is connected with described electric motor 2.

Embodiment 2

As shown in Figure 2, in the present embodiment, described fluid delivery tube 1 is straight line transfer lime, described power transmission component comprises output shaft 5, conical insert wheels 6 and input shaft 7, described output shaft 5 is perpendicular with described input shaft 7, and two cone gears in described conical insert wheels 6 are arranged at respectively on described output shaft and described input shaft, and one end of described output shaft 5 is connected with described electric motor 2, described stirring arm 3 is axially set on described input shaft 7

Embodiment 3

As shown in Figure 3, in the present embodiment, described fluid delivery tube 1 is the L-type transfer lime being made up of straight line transfer lime 1 and straight line transfer lime 2 102, in described straight line transfer lime one, be provided with stirring arm described in two-stage, in described straight line transfer lime two, be provided with another grade of described stirring arm, described electric motor 2 comprises electric motor 1 and electric motor 2 202, described power transmission component comprises power transmission component one and power transmission component two, described power transmission component one includes output shaft 5 with power transmission component two, conical insert wheels 6 and input shaft 7, described output shaft 5 is perpendicular with described input shaft 7, two cone gears in described conical insert wheels are arranged at respectively on described output shaft and described input shaft, one end of output shaft 5 in described power transmission component one is connected with described electric motor 1, one end of output shaft 5 in described power transmission component two is connected with described electric motor 2 202, described stirring arm 3 is axially set on described input shaft 7.

Embodiment 4

As shown in Figure 4, in the present embodiment, described fluid delivery tube 1 is the L-type transfer lime being made up of straight line transfer lime 1 and straight line transfer lime 2 102, in described straight line transfer lime one, be provided with stirring arm described in two-stage, in described straight line transfer lime two, be provided with another grade of described stirring arm, described electric motor comprises electric motor 1 and electric motor 2 202, described electric motor one is along the axial line setting of rectilinear tubes one, described electric motor two is along the axial line setting of rectilinear tubes two, described power transmission component comprises power transmission component one and power transmission component two, described power transmission component one is transmission shaft 4 with power transmission component two, described stirring arm 3 is axially set on described transmission shaft 4, described in two-stage in described straight line transfer lime one, stirring arm is connected with described electric motor one by described power transmission component one, another grade of described stirring arm in described straight line transfer lime two is connected with described electric motor two by described power transmission component two.

Embodiment 5

As shown in Figure 5, in the present embodiment, described fluid delivery tube 1 is the L-type transfer lime being made up of straight line conveying 1 and straight line transfer lime 2 102, in described straight line transfer lime one, be provided with stirring arm described in two-stage, in described straight line transfer lime two, be provided with another grade of described stirring arm, described electric motor comprises electric motor 1 and electric motor 2 202, described power transmission component comprises power transmission component one and power transmission component two, described power transmission component one comprises output shaft 5, conical insert wheels 6 and input shaft 7, described output shaft and described input shaft are perpendicular, two cone gears in described conical insert wheels are arranged at respectively on described output shaft and described input shaft, one end of output shaft 5 in described power transmission component one is connected with described electric motor 1, described in two-stage in described straight line transfer lime one, stirring arm is axially set on described input shaft, power transmission component two is transmission shaft 4, another grade of described stirring arm in described straight line transfer lime two is connected with described electric motor 2 202 by described transmission shaft 4.

Embodiment 6

As shown in Figure 6, in the present embodiment, described fluid delivery tube 1 is the L-type transfer lime being made up of straight line transfer lime 1 and straight line transfer lime 2 102, in described straight line transfer lime one, be provided with stirring arm described in two-stage, in described straight line transfer lime two, be provided with another grade of described stirring arm, described electric motor comprises electric motor 1 and electric motor 2 202, described power transmission component comprises power transmission component one and power transmission component two, described power transmission component one is transmission shaft 4, described in two-stage in described straight line transfer lime one, stirring arm is axially connected with described electric motor 1 by described transmission shaft 4, described power transmission component two comprises output shaft 5, the rectangular conical insert wheels 6 of shape and input shaft 7, described output shaft and described input shaft are perpendicular, two cone gears in described conical insert wheels are arranged at respectively on described output shaft and described input shaft, one end of output shaft 5 in described power transmission component two is connected with described electric motor 2 202, another grade of described stirring arm in described straight line transfer lime two is axially set on described input shaft.

In the description of this specification sheets, the description of reference term " embodiment ", " some embodiment ", " example ", " concrete example " or " some examples " etc. means to be contained at least one embodiment of the present utility model or example in conjunction with specific features, structure, material or the feature of this embodiment or example description.In this manual, the schematic statement of above-mentioned term is not necessarily referred to identical embodiment or example.And specific features, structure, material or the feature of description can be with suitable mode combination in any one or more embodiment or example.

Although illustrated and described embodiment of the present utility model, those having ordinary skill in the art will appreciate that: in the situation that not departing from principle of the present utility model and aim, can carry out multiple variation, amendment, replacement and modification to these embodiment, scope of the present utility model is limited by claim and equivalent thereof.

Claims (10)

1. a tubular type Mechanical coagulation device, is characterized in that, comprising:

Fluid delivery tube, carries for convection cell; With

Stirring mechanism, for the fluid of described fluid delivery tube is stirred, described stirring mechanism comprises primover, power transmission component and stirring arm, described stirring arm is connected with described primover by described power transmission component, described stirring arm is arranged in described fluid delivery tube, and the axis of the central shaft of described stirring arm and the described fluid delivery tube at its place is parallel or overlap; In direction, be provided with multistage described stirring mechanism along flowing to of described fluid, successively decrease gradually along the direction that flows to of described fluid along the outer linear velocity of the described stirring arm that flows to the described stirring mechanisms at different levels in direction of described fluid.

2. tubular type Mechanical coagulation device according to claim 1, is characterized in that, successively decreases gradually along the diameter of described stirring arms at different levels that direction distributes that flows to of described fluid.

3. tubular type Mechanical coagulation device according to claim 2, is characterized in that, the stirring mechanism arranging in direction along flowing to of described fluid comprises three grades of described stirring mechanisms, and described fluid delivery tube is straight line transfer lime.

4. tubular type Mechanical coagulation device according to claim 3, is characterized in that, described power transmission component is transmission shaft, and three described stirring arms are axially set on described transmission shaft, and one end of described transmission shaft is connected with described primover.

5. tubular type Mechanical coagulation device according to claim 3, it is characterized in that, described power transmission component comprises output shaft, conical insert wheels and input shaft, described output shaft and described input shaft are perpendicular, two cone gears in described conical insert wheels are arranged at respectively on described output shaft and described input shaft, one end of described output shaft is connected with described primover, and described stirring arm is axially set on described input shaft.

6. tubular type Mechanical coagulation device according to claim 2, it is characterized in that, the stirring mechanism arranging in direction along flowing to of described fluid comprises three grades of described stirring mechanisms, described fluid delivery tube is the L-type transfer lime being made up of straight line transfer lime one and straight line transfer lime two, in described straight line transfer lime one, be provided with stirring arm described in two-stage, in described straight line transfer lime two, be provided with another grade of described stirring arm, described primover comprises primover one and primover two, described power transmission component comprises power transmission component one and power transmission component two, described in two-stage in described straight line transfer lime one, stirring arm is connected with described primover one by described power transmission component one, another grade of described stirring arm in described straight line transfer lime two is connected with described primover two by described power transmission component two.

7. tubular type Mechanical coagulation device according to claim 6, it is characterized in that, described power transmission component one includes output shaft with power transmission component two, conical insert wheels and input shaft, described output shaft and described input shaft are perpendicular, two cone gears in described conical insert wheels are arranged at respectively on described output shaft and described input shaft, one end of output shaft in described power transmission component one is connected with described primover one, one end of output shaft in described power transmission component two is connected with described primover two, described stirring arm is axially set on described input shaft.

8. tubular type Mechanical coagulation device according to claim 6, is characterized in that, described power transmission component one is transmission shaft with power transmission component two, and described stirring arm is axially set on described transmission shaft.

9. tubular type Mechanical coagulation device according to claim 6, it is characterized in that, described power transmission component one comprises output shaft, conical insert wheels and input shaft, described output shaft and described input shaft are perpendicular, two cone gears in described conical insert wheels are arranged at respectively on described output shaft and described input shaft, one end of output shaft in described power transmission component one is connected with described primover one, described in two-stage in described straight line transfer lime one, stirring arm is axially set on described input shaft, and described power transmission component two is transmission shaft.

10. tubular type Mechanical coagulation device according to claim 6, it is characterized in that, described power transmission component two comprises output shaft, conical insert wheels and input shaft, described output shaft and described input shaft are perpendicular, two cone gears in described conical insert wheels are arranged at respectively on described output shaft and described input shaft, one end of output shaft in described power transmission component two is connected with described primover two, another grade of described stirring arm in described straight line transfer lime two is axially set on described input shaft, and described power transmission component one is transmission shaft.