CN206269112U - A kind of energy-conservation regular unloading container - Google Patents

Abstract

The utility model provides a kind of energy-conservation regular unloading container, including tank body, and it passes through demarcation strip and inside is divided into upper vapor chamber and lower soil chamber, and vapour liquid separator is provided with demarcation strip；The lateral wall of tank body is provided with water inlet pipe, and one end that water inlet pipe is stretched into lower soil chamber is provided with cushioning fender；Heat-exchange tube, it is placed in tank body, and upper end stretches out tank body from upper vapor chamber, and tank body is stretched out in lower end from from lower soil chamber.Energy-conservation regular unloading container described in the utility model, simple structure, energy-conserving and environment-protective.The heat of medium in upper vapor chamber and lower soil chamber can effectively be utilized by heat-exchange tube, operating efficiency of the present utility model be improve, while reducing the processing cost of high temperature sewage.By cushioning fender and kuppe, impact of the sewer into water inlet pipe to inner tank wall is reduced, extend service life of the present utility model.

Description

A kind of energy-conservation regular unloading container

Technical field

The utility model belongs to boiler heat recovery technology field, more particularly, to a kind of blowdown system.

Background technology

In traditional boiler plant, blowdown system is often used.Blowdown system in use, only on a small quantity Sewer by flickering for steam is used, the high temperature sewer that remaining is not flashed is not utilized, be immediately discharged to blowdown cooling Pond carries out cooling discharge.The course of work not only wastes the heat entrained by high temperature sewer, at the same allow its natural cooling or Being passed through cooling water to it can all cause the increase of production cost.Additionally, the mode for being passed through cold water shortage can also increase sewage flow rate, no Beneficial to environmental protection.

Utility model content

In view of this, the utility model is directed to a kind of energy-conservation regular unloading container, to solve in the prior art, row The heat that dirty flash vessel is present recycles that efficiency is poor, be unfavorable for the problem of environmental protection.

To reach above-mentioned purpose, what the technical solution of the utility model was realized in：

A kind of energy-conservation regular unloading container, including tank body, it passes through demarcation strip and inside is divided into upper vapor chamber and lower dirt Water cavity, is provided with vapour liquid separator on demarcation strip；The lateral wall of tank body is provided with water inlet pipe, and water inlet pipe is stretched into lower soil chamber One end is provided with cushioning fender；Heat-exchange tube, it is placed in tank body, and upper end stretches out tank body from upper vapor chamber, and lower end is from lower sewage Tank body is stretched out in chamber.

Further, the part that the heat-exchange tube stretches out tank body from the upper vapor chamber is inlet, from the lower dirt The part that tank body is stretched out in water cavity is liquid outlet；The end of inlet and liquid outlet has been respectively and fixedly connected with flange.

Further, the part that the heat-exchange tube is located in upper vapor chamber is upper spiral section, the portion in lower soil chamber It is divided into lower spiral section；Upper spiral section and lower spiral section are coil arrangement, and both are by passing vertically through the company of the demarcation strip Connect section connection.

Further, the number of turns of the lower spiral section is more than upper spiral section.

Further, the cushioning fender is provided with that shunting is convex towards the side wall middle part on the inside of the water inlet pipe, and shunting projection is Cone or pyramid；Delivery port, and delivery port are uniformly provided with the lateral wall of water inlet pipe near cushioning fender.

Further, kuppe is connected with the madial wall of the lower soil chamber, kuppe is sheathed on the outside of water inlet pipe.

Further, the axial direction that the axial length of the kuppe is located in the lower soil chamber more than the water inlet pipe is long Degree.

Relative to prior art, energy-conservation regular unloading container described in the utility model has the advantage that：

Energy-conservation regular unloading container described in the utility model, simple structure, energy-conserving and environment-protective.Can by heat-exchange tube The heat of medium in upper vapor chamber and lower soil chamber is effectively utilized, operating efficiency of the present utility model is improve, while Reduce the processing cost of high temperature sewage.By cushioning fender and kuppe, the sewer into water inlet pipe is reduced to tank The impact of internal wall, extends service life of the present utility model.

Brief description of the drawings

The accompanying drawing for constituting a part of the present utility model is used for providing being further understood to of the present utility model, and this practicality is new The schematic description and description of type is used to explain the utility model, does not constitute to improper restriction of the present utility model. In accompanying drawing：

Fig. 1 is the main view of the energy-conservation regular unloading container described in the utility model embodiment to sectional view；

Fig. 2 is the enlarged drawing of I parts in Fig. 1.

Description of reference numerals：

1- tank bodies；Soil chamber under 11-；The upper vapor chambers of 12-；2- demarcation strips；3- vapour liquid separators；4- steam (vapor) outlets；5- enters Water pipe；51- delivery ports；52- cushioning fenders；521- shuntings are raised；6- outlets of sewer；7- liquid outlets；71- inlets；The upper spiral shells of 72- Rotation section；Spiral section under 73-；74- linkage sections；8- kuppes.

Specific embodiment

It should be noted that in the case where not conflicting, the feature in embodiment and embodiment in the utility model can To be mutually combined.

In description of the present utility model, it is to be understood that term " " center ", " longitudinal direction ", " transverse direction ", " on ", D score, The orientation or position relationship of the instruction such as "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom ", " interior ", " outward " are Based on orientation shown in the drawings or position relationship, it is for only for ease of description the utility model and simplifies description, rather than instruction Or imply that the device or element of meaning with specific orientation, with specific azimuth configuration and operation, therefore must not be understood that It is to limitation of the present utility model.Additionally, term " first ", " second " etc. are only used for describing purpose, and it is not intended that indicating Or imply relative importance or the implicit quantity for indicating indicated technical characteristic.Thus, " first ", " second " etc. are defined Feature can express or implicitly include one or more this feature.In description of the present utility model, unless separately It is described, " multiple " is meant that two or more.

, it is necessary to explanation, unless otherwise clearly defined and limited, term " is pacified in description of the present utility model Dress ", " connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected, or be detachably connected, or integratedly Connection；Can mechanically connect, or electrically connect；Can be joined directly together, it is also possible to be indirectly connected to by intermediary, Can be two connections of element internal.For the ordinary skill in the art, can be by concrete condition understanding State concrete meaning of the term in the utility model.

Describe the utility model in detail below with reference to the accompanying drawings and in conjunction with the embodiments.

Such as Fig. 1,2, the utility model proposes a kind of energy-conservation regular unloading container, including tank body 1, it passes through demarcation strip 2 Inside is divided into upper vapor chamber 12 and lower soil chamber 11, vapour liquid separator 3 is installed on demarcation strip 2；Set on the lateral wall of tank body 1 There is water inlet pipe 5, one end that water inlet pipe 5 is stretched into lower soil chamber 11 is provided with cushioning fender 52；Heat-exchange tube, it is placed in tank body 1, Upper end stretches out tank body 1 from upper vapor chamber 12, and tank body 1 is stretched out in lower end from lower soil chamber 11.

The upper end of tank body 1 is provided with steam (vapor) outlet 4, its extraneous and upper vapor chamber 12 of connection；The lower end of tank body 1 is provided with sewage and goes out Mouth 6, its extraneous and lower soil chamber 11 of connection.

The part that above-mentioned heat-exchange tube stretches out tank body 1 from above-mentioned upper vapor chamber 12 is inlet 71, from above-mentioned lower sewage The part that tank body 1 is stretched out in chamber 11 is liquid outlet 7；The end of inlet 71 and liquid outlet 7 has been respectively and fixedly connected with flange.

The part that above-mentioned heat-exchange tube is located in upper vapor chamber 12 is upper spiral section 72, the part in lower soil chamber 11 It is lower spiral section 73；Upper spiral section 72 and lower spiral section 73 are coil arrangement, and both are by passing vertically through above-mentioned demarcation strip 2 Linkage section 74 connect.The number of turns of above-mentioned lower spiral section 73 is more than upper spiral section 72.The structure causes that heat exchange intraductal heat exchange is situated between Matter only completes preheating in upper spiral section 72, and its main heat transfer process is the heat exchange with high temperature sewage in lower spiral section 73.

Above-mentioned cushioning fender 52 is provided with shunting raised 521 towards the side wall middle part of the inner side of above-mentioned water inlet pipe 5, and shunting is raised 521 is cone or pyramid；Delivery port 51, and delivery port 51 are uniformly provided with the lateral wall of water inlet pipe 5 near cushioning fender 52.High pressure sewer in water inlet pipe 5 can be carried out shunting decompression by shunting raised 521, and be discharged by delivery port 51.Effectively Alleviate impact of the high pressure sewer to the madial wall of tank body 1.

Kuppe 8 is connected with the madial wall of above-mentioned lower soil chamber 11, kuppe 8 is sheathed on the outside of water inlet pipe 5.Water conservancy diversion Cover 8 can guide the sewer that delivery port 51 is discharged, it is to avoid sewer disperses everywhere in lower soil chamber 11.

The axial length of above-mentioned kuppe 8 is located at the axial length in above-mentioned lower soil chamber 11 more than above-mentioned water inlet pipe 5.Should Structure improves the water conservancy diversion effect of kuppe 8, improves its reliability.

When using, the sewer periodically discharged from boiler is entered into the larger lower soil chamber 11 of volume by water inlet pipe 5, And the process of step-down flash distillation is completed in lower soil chamber 11.The steam produced in flash process is entered into by vapour liquid separator 3 In upper vapor chamber 12, the lower internal memory of soil chamber 11 keeps remaining high temperature sewage after flash distillation.

The heat exchange medium of cold conditions enters into heat-exchange tube from inlet 71, and it is carried out just in upper spiral section 72 with steam Step heat exchange, reaches the effect of preheating.Afterwards, the steam in upper vapor chamber 12 is discharged from steam (vapor) outlet 4, the heat exchange after preheating Medium is entered into lower spiral section 73 by linkage section 74.Heat exchange medium completes the heat with high temperature sewage in lower spiral section 73 Exchange, and finally discharged from liquid outlet 7.High temperature sewage after cooling can directly pass through outlet of sewer 6 due to reaching discharge standard Discharge.

The above-mentioned energy-conservation regular unloading container of the utility model, simple structure, energy-conserving and environment-protective.Can by heat-exchange tube The heat of medium in upper vapor chamber 12 and lower soil chamber 11 is effectively utilized, operating efficiency of the present utility model is improve, The processing cost of high temperature sewage is reduced simultaneously.By cushioning fender 52 and kuppe 8, the row into water inlet pipe 5 is reduced Impact of the sewage to the inwall of tank body 1, extends service life of the present utility model.

Preferred embodiment of the present utility model is the foregoing is only, is not used to limit the utility model, it is all at this Within the spirit and principle of utility model, any modification, equivalent substitution and improvements made etc. should be included in the utility model Protection domain within.

Claims (7)

1. a kind of energy-conservation regular unloading container, it is characterised in that including：

Tank body (1), it passes through demarcation strip (2) and inside is divided into upper vapor chamber (12) and lower soil chamber (11), pacifies on demarcation strip (2) Equipped with vapour liquid separator (3)；The lateral wall of tank body (1) is provided with water inlet pipe (5), and water inlet pipe (5) is stretched into lower soil chamber (11) One end be provided with cushioning fender (52)；

Heat-exchange tube, it is placed in tank body (1), and upper end stretches out tank body (1) from upper vapor chamber (12), and lower end is from lower soil chamber (11) tank body (1) is stretched out in.

2. energy-conservation regular unloading container according to claim 1, it is characterised in that：The heat-exchange tube is from the upper steaming The part of tank body (1) is stretched out in vapour chamber (12) for inlet (71), from the interior part for stretching out tank body (1) of the lower soil chamber (11) It is liquid outlet (7)；The end of inlet (71) and liquid outlet (7) has been respectively and fixedly connected with flange.

3. energy-conservation regular unloading container according to claim 1, it is characterised in that：The heat-exchange tube is located at upper steam Part in chamber (12) is upper spiral section (72), and the part in lower soil chamber (11) is lower spiral section (73)；Upper spiral section (72) and lower spiral section (73) is coil arrangement, and both by the linkage section (74) that passes vertically through the demarcation strip (2) even It is logical.

4. energy-conservation regular unloading container according to claim 3, it is characterised in that：The number of turns of the lower spiral section (73) More than upper spiral section (72).

5. energy-conservation regular unloading container according to claim 1, it is characterised in that：The cushioning fender (52) is towards institute State the side wall middle part on the inside of water inlet pipe (5) and be provided with shunting projection (521), shunting raised (521) is cone or pyramid；Water inlet Delivery port (51), and delivery port (51) are uniformly provided with the lateral wall for managing (5) near cushioning fender (52).

6. energy-conservation regular unloading container according to claim 5, it is characterised in that：The inner side of the lower soil chamber (11) Kuppe (8) is connected with wall, kuppe (8) is sheathed on the outside of water inlet pipe (5).

7. energy-conservation regular unloading container according to claim 6, it is characterised in that：The axial direction of the kuppe (8) is long Degree is more than axial length of the water inlet pipe (5) in the lower soil chamber (11).