CN206868142U - Waterglass high-efficiency dissolution tank - Google Patents

Abstract

The utility model is specifically related to waterglass high-efficiency dissolution tank, including the tank body for sodium silicate dissolving, charging aperture is set on the tank body, discharging opening and air inlet, the discharging opening is connected by discharge pipe with cooling device, it is provided for absorbing the exhaust-heat absorption pipeline of discharge pipe heat on the outside of the discharge pipe, and it is additionally provided with vapor removal lines at cooling device separation cavity and is connected with waste-heat recovery device, steam pipeline is disposed with the tank body, two steam pipelines are vertical respectively to be arranged in tank body both sides, two steam pipelines are connected by connecting pipe with air inlet, and the steam pipeline arranges several gas outlets along on vertical direction.The purpose of this utility model is to provide a kind of waterglass high-efficiency dissolution tank, not only changes the mode that vapor is passed through dissolving tank so that vapor obtains the utilization of abundance, and also the heat not using vapor is reclaimed.

Description

Waterglass high-efficiency dissolution tank

Technical field

Waterglass process units is the utility model is related to, more particularly to a kind of waterglass high-efficiency dissolution tank.

Background technology

Waterglass is a kind of critically important Inorganic Chemicals, is the raw material of the various waterglass procreation things of production, in its people There is extensive purposes in economy.Dry production waterglass mainly industrially is used at present, using quartz sand and soda ash as raw material, Reaction generation sodium metasilicate, typical temperature reach more than 1200 DEG C under certain temperature, and sodium metasilicate is in molten state, is generated through water quenching cooling Solid particle.Due to be typically configured to solution when industrial waterglass is applied, current most of enterprise is all using dissolving rolling Cylinder, toward roller in be passed through vapor, dissolved under certain temperature and pressure, traditional vapor use be passed directly into roller In, waterglass is low to the utilization rate of vapor in roller, and the temperature of solution is higher when causing discharging, typically larger than 100 DEG C, and The heat of this part would generally be ignored, and the material of releasing is directly used in dilution, causes the loss of thermal loss and vapor.

A kind of waste-heat recovery device of sodium silicate dissolving is announced in Chinese utility model patent CN201120134601.3, is wrapped Dissolver, vapor pipe, waterglass feed arrangement, waterglass cooling device and vapor accumulator tank are included, its design feature is Dissolver includes dissolution kettle kettle and feed arrangement, and feed arrangement is connected to dissolution kettle kettle by solid water glass charging aperture, Dissolution kettle kettle connects waterglass cooling device by waterglass discharging opening, and waterglass cooling device includes shell and waterglass connects Groove is received, waterglass receiving slit includes reverse taper bottom, three reception charging apertures and sediment discharging opening, and three receive charging apertures with falling Cone base is connected as a body, and vapor receiving pipeline, the vapor receiving pipeline other end are provided with above waterglass receiving slit Through cyclone cluster, vapor recovery tube connection vapor accumulator tank.But the waste-heat recovery device only pin that the utility model refers to Vapor is reclaimed, utilization ratio of the vapor in sodium silicate dissolving how is improved and does not refer to.

The content of the invention

In view of the above, the purpose of this utility model is to provide a kind of waterglass high-efficiency dissolution tank, not only changes water Steam is passed through the mode of dissolving tank so that vapor obtains the utilization of abundance, and also the heat not using vapor is reclaimed.

Waterglass high-efficiency dissolution tank, including the tank body for sodium silicate dissolving, charging aperture, discharging opening are set on the tank body And air inlet, the discharging opening are connected by discharge pipe with cooling device, it is provided for absorbing on the outside of the discharge pipe The exhaust-heat absorption pipeline of discharge pipe heat, and the cooling device separation cavity at be additionally provided with vapor removal lines with it is remaining Heat reclamation device is connected, and is disposed with steam pipeline in the tank body, and the steam pipeline is vertical respectively to be arranged in tank body both sides, Two steam pipelines are connected by connecting pipe with air inlet, and the steam pipeline arranges several along on vertical direction Gas outlet.

Waterglass high-efficiency dissolution tank provided by the utility model can be further arranged to the outlet side in two steam pipelines To vertical with the line at two steam pipeline centers, and on two steam pipes gas outlet it is in opposite direction.

Waterglass high-efficiency dissolution tank provided by the utility model can be further arranged to every on same steam pipeline Two adjacent gas outlets progressively reduce from top to bottom in the spacing of vertical direction.

Waterglass high-efficiency dissolution tank provided by the utility model can be further arranged to exhaust-heat absorption pipeline and waste heat recovery Heat absorption liquid medium is provided with device, and inlet and liquid outlet are provided with exhaust-heat absorption pipeline, the inlet with Outside device for storing liquid connection, the liquid outlet are then connected by liquid-transport pipe-line with waste-heat recovery device.

Waterglass high-efficiency dissolution tank provided by the utility model can be further arranged in the vapor removal lines also It is provided with cyclone cluster.

It is water that waterglass high-efficiency dissolution tank provided by the utility model, which can be further arranged to heat absorption liquid medium,.

The beneficial effects of the utility model are：

1st, the arrangement of steam pipeline is adjusted in the waterglass high-efficiency dissolution tank, vertical using two steam pipelines It is arranged in tank body, sprays vapor along working off one's feeling vent one's spleen on vertical direction so that it is contacted with the waterglass in dissolving tank It is even closer, meanwhile, the design in opposite direction worked off one's feeling vent one's spleen so that vapor can utilize spray formed a motive force so that tank Internal waterglass is carried out along tank body center rotating, and then causes the more abundant of waterglass contact, and heat utilization rate is higher；

2nd, the utilization in the waterglass high-efficiency dissolution tank to waste heat includes two aspects, one is to waste heat on discharge pipe Utilization, its heat is absorbed by heat absorption liquid medium in exhaust-heat absorption pipeline, second it is to unnecessary in dissolving tank Vapor is absorbed, and vapor is recycled in waste-heat recovery device by vapor removal lines, and utilizes heat absorption liquid Medium absorbs to its heat, heat absorption liquid medium selection water, can allow to carry out the water after completing absorption waste heat and directly use In manufacture high-temperature vapor, the cost for manufacturing high-temperature vapor is reduced.

Brief description of the drawings

Fig. 1 is the layout drawing of the utility model waterglass high-efficiency dissolution tank；

Fig. 2 is the schematic diagram of the utility model waterglass high-efficiency dissolution tank；

Fig. 3 is the top view inside the utility model waterglass high-efficiency dissolution tank.

Embodiment

1 to Fig. 3 the utility model waterglass high-efficiency dissolution tank embodiment is described further referring to the drawings.

The waterglass high-efficiency dissolution tank, including the tank body 1 for sodium silicate dissolving, set on the tank body 1 charging aperture 11, Discharging opening 12 and air inlet 13, are disposed with steam pipeline 2 in the tank body 1, and two steam pipelines 2 are vertical respectively to be arranged in The both sides of tank body 1, two steam pipelines 2 are connected by connecting pipe 21 with air inlet 13, and the steam pipeline 2 is along vertical side Several gas outlets 22 are arranged upwards.Outgassing direction and the line at two centers of steam pipeline 2 in two steam pipelines 2 hang down Directly, the outgassing direction and on two steam pipes is opposite.The adjacent gas outlet 22 of each two on same steam pipeline 2 is vertical The spacing in direction progressively reduces from top to bottom.The arrangement of steam pipeline 2 is adjusted in the waterglass high-efficiency dissolution tank, utilized Two steam pipelines 2 are vertical to be arranged in tank body 1, sprays vapor along working off one's feeling vent one's spleen on vertical direction so that its with In dissolving tank waterglass contact it is even closer, meanwhile, the design in opposite direction worked off one's feeling vent one's spleen so that vapor can utilize spray Form a motive force so that the waterglass in tank body 1 is carried out along the center rotating of tank body 1, and then causes waterglass contact more Add fully, heat utilization rate is higher.

The discharging opening 12 is connected by discharge pipe 3 with cooling device 4, and the outside of discharge pipe 3 is provided for inhaling The exhaust-heat absorption pipeline 31 of the heat of discharge pipe 3 is received, and Vapor return pipe is additionally provided with the cooling device 4 separation cavity Road 5 is connected with waste-heat recovery device 6, and heat absorption liquid medium is provided with exhaust-heat absorption pipeline 31 and waste-heat recovery device 6, and Inlet 32 and liquid outlet 33 are provided with exhaust-heat absorption pipeline 31, the inlet 32 is connected with outside device for storing liquid, described Liquid outlet 33 is then connected by liquid-transport pipe-line 34 with waste-heat recovery device 6.Whirlwind is additionally provided with the vapor removal lines 5 Machine 51.The heat absorption liquid medium is water.Utilization in the waterglass high-efficiency dissolution tank to waste heat includes two aspects, one is Utilization to waste heat on discharge pipe 3, its heat is absorbed by heat absorption liquid medium in exhaust-heat absorption pipeline 31, secondly It is then that unnecessary vapor in dissolving tank is absorbed, vapor is recycled into waste heat recovery by vapor removal lines 5 fills In putting 6, and its heat is absorbed using heat absorption liquid medium, heat absorption liquid medium selection water, completion can be allowed to carry out Absorb the water after waste heat and be directly used in manufacture high-temperature vapor, reduce the cost of manufacture high-temperature vapor.

Finally it should be noted that：Preferred embodiment of the present utility model is the foregoing is only, is not limited to this Utility model, although the utility model is described in detail with reference to the foregoing embodiments, for those skilled in the art For, it can still modify to the technical scheme described in foregoing embodiments, or to which part technical characteristic Progress equivalent substitution, all within the spirit and principles of the utility model, any modification, equivalent substitution and improvements made etc., It should be included within the scope of protection of the utility model.

Claims (6)

1. Set 1. waterglass high-efficiency dissolution tank, including the tank body for sodium silicate dissolving, on the tank body charging aperture, discharging opening with And air inlet, the discharging opening are connected by discharge pipe with cooling device, it is provided for absorbing on the outside of the discharge pipe The exhaust-heat absorption pipeline of pipe material heat, and it is additionally provided with vapor removal lines and waste heat at cooling device separation cavity Retracting device is connected, it is characterised in that is disposed with steam pipeline in the tank body, two steam pipelines are vertical respectively to be arranged in Tank body both sides, two steam pipelines are connected by connecting pipe with air inlet, and the steam pipeline is along cloth on vertical direction Several gas outlets are put.
2. 2. waterglass high-efficiency dissolution tank according to claim 1, it is characterised in that the outgassing direction in two steam pipelines It is vertical with the line at two steam pipeline centers, and the outgassing direction on two steam pipes is opposite.
3. 3. waterglass high-efficiency dissolution tank according to claim 2, it is characterised in that every two on same steam pipeline Individual adjacent gas outlet progressively reduces from top to bottom in the spacing of vertical direction.
4. 4. waterglass high-efficiency dissolution tank according to claim 3, it is characterised in that exhaust-heat absorption pipeline fills with waste heat recovery Heat absorption liquid medium is provided with putting, and inlet and liquid outlet are provided with exhaust-heat absorption pipeline, the inlet with it is outer Portion's device for storing liquid connection, the liquid outlet are then connected by liquid-transport pipe-line with waste-heat recovery device.
5. 5. waterglass high-efficiency dissolution tank according to claim 4, it is characterised in that also set in the vapor removal lines It is equipped with cyclone cluster.
6. 6. the waterglass high-efficiency dissolution tank according to claim 4 or 5, it is characterised in that the heat absorption liquid medium is water.