CN206549615U - A kind of chemical pipeline deslagging residual heat using device - Google Patents

Abstract

The utility model discloses a kind of chemical pipeline deslagging residual heat using device of technical field of chemical, including reactor, the right side wall bottom of the reactor is provided with afterheat return pipe, the left end of the afterheat return pipe is provided with filter, the filter is arranged on the inner chamber of reactor, the utility model controls the rotation of heat recovery draught fan by control device, the waste heat after reaction in waste residue is set to enter by afterheat return pipe in reative cell, reduce the heating of the electric-heating-wire-heating device of reacting outdoor wall, economize on resources, ensure that the temperature of reative cell ensures persistence again simultaneously, pass through the setting of temperature sensor, the temperature in reative cell is set to be maintained in the range of a stationary temperature, ensure the stability of reaction, pass through the setting of filter, prevent waste residue from entering by afterheat return pipe in heat recovery draught fan, reduction is damaged to heat recovery draught fan, reduce maintenance cost.

Description

A kind of chemical pipeline deslagging residual heat using device

Technical field

The utility model is related to technical field of chemical, specially a kind of chemical pipeline deslagging residual heat using device.

Background technology

Waste heat refers to the limitation by factors such as history, technology, theories, in the industrial enterprise's energy-dissipating device put into operation, Sensible heat and latent heat that original design is not used appropriately.It includes high-temp waste gas waste heat, cooling medium waste heat, more than waste vapour waste water Hot, high-temperature product and afterheat of slags, chemical reaction waste heat, combustible exhaust gas waste liquid and waste material waste heat etc., in chemical engineering industry production, Substantial amounts of heat is needed in production process and substantial amounts of industrial residue is discharged, substantial amounts of waste heat is contained in the waste residue of discharge, for The recycling of waste heat is particularly important, therefore, a kind of it is proposed that chemical pipeline deslagging residual heat using device.

Utility model content

The purpose of this utility model is to provide a kind of chemical pipeline deslagging residual heat using device, to solve above-mentioned background skill Proposed in art in chemical engineering industry production, substantial amounts of heat is needed in production process and substantial amounts of industrial residue is discharged, in discharge Waste residue in contain substantial amounts of waste heat, for waste heat recycling it is particularly important the problem of.

To achieve the above object, the utility model provides following technical scheme：A kind of chemical pipeline deslagging UTILIZATION OF VESIDUAL HEAT IN dress Put, including reactor, the right side wall bottom of the reactor is provided with afterheat return pipe, the left end setting of the afterheat return pipe There is filter, the filter is arranged on the inner chamber of reactor, and the outer wall of the afterheat return pipe is provided with waste heat recovery Blower fan, the other end of the afterheat return pipe is connected with end cover, and the bottom of the end cover is arranged on the top of reactor Portion, the inner chamber of the reactor is provided with reative cell, and the outer wall of the reative cell is evenly arranged with electric-heating-wire-heating device, described The inner chamber left and right sidewall of reative cell is provided with temperature sensor, and the bottom of the reative cell is provided with dividing plate, and the dividing plate is horizontal To the inner chamber for being plugged on reactor, the inner chamber of the dividing plate, which is plugged with the top of discharge nozzle, the discharge nozzle, is arranged on reative cell Intracavity bottom, the bottom of the discharge nozzle is arranged on the bottom of dividing plate, and the outer wall of the discharge nozzle is provided with magnetic valve, described The intracavity bottom of reactor is provided with screen cloth, and the screen cloth is arranged on the bottom of discharge nozzle, and the bottom of the reactor is provided with Waste residue discharge pipe, the bottom of the left side wall of the reactor is provided with discharging opening, and the inner chamber of the discharging opening is plugged with plate, institute The top plate for stating plate is arranged on the top of discharging opening, and the left wall of the reactor is provided with control device, and the control device is set Put at the top of discharging opening, the control device respectively with heat recovery draught fan, electric-heating-wire-heating device, temperature sensor and electricity Magnet valve is electrically connected with.

It is preferred that, it is provided with stainless steel filter screen, the right side of the stainless steel filter screen on the left of the inner chamber of the filter Side is set and is provided with activated carbon filter layer on the right side of grittiness filter layer, the gravel filter layer, and the activated carbon filter layer is set Put in the inner chamber of filter.

It is preferred that, the junction at the bottom of the end cover and the top of reactor is provided with rubber gasket.

It is preferred that, the outer wall of the afterheat return pipe is enclosed with foam heat-insulation layer.

Compared with prior art, the beneficial effects of the utility model are：The utility model controls waste heat by control device The rotation of blower fan is reclaimed, the waste heat after reaction in waste residue is entered by afterheat return pipe in reative cell, reduces reative cell The heating of the electric-heating-wire-heating device of outer wall, economizes on resources, while ensureing that the temperature of reative cell ensures persistence again, passes through temperature The setting of sensor, makes the temperature in reative cell be maintained in the range of a stationary temperature, it is ensured that the stability of reaction, passes through The setting of filter, prevents waste residue from entering by afterheat return pipe in heat recovery draught fan, and reduction is made to heat recovery draught fan Into injury, maintenance cost is reduced.

Brief description of the drawings

Fig. 1 is the utility model structural representation；

Fig. 2 is the utility model filter apparatus configuration schematic diagram.

In figure：1 reactor, 2 afterheat return pipes, 3 heat recovery draught fans, 4 filters, 41 stainless steel filter screens, 42 sand Gravel filter layer, 43 activated carbon filter layers, 5 end covers, 6 reative cells, 7 electric-heating-wire-heating devices, 8 temperature sensors, 9 dividing plates, 10 discharge nozzles, 11 magnetic valves, 12 screen clothes, 13 waste residue discharge pipes, 14 discharging openings, 15 plates, 16 control devices.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is carried out Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the utility model, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made The every other embodiment obtained, belongs to the scope of the utility model protection.

Fig. 1-2 is referred to, the utility model provides a kind of technical scheme：A kind of chemical pipeline deslagging residual heat using device, Including reactor 1, the right side wall bottom of the reactor 1 is provided with afterheat return pipe 2, and the left end of the afterheat return pipe 2 is set It is equipped with filter 4, the filter 4 is arranged on the inner chamber of reactor 1, the outer wall of the afterheat return pipe 2 is provided with remaining Recuperation fan 3, the other end of the afterheat return pipe 2 is connected with end cover 5, and the bottom of the end cover 5 is arranged on The top of reactor 1, the inner chamber of the reactor 1 is provided with reative cell 6, and the outer wall of the reative cell 6 is evenly arranged with electric heating Silk heater 7, the inner chamber left and right sidewall of the reative cell 6 is provided with temperature sensor 8, and the bottom of the reative cell 6 is set Dividing plate 9 is equipped with, the transverse splicing of dividing plate 9 is in the inner chamber of reactor 1, and the inner chamber of the dividing plate 9 is plugged with discharge nozzle 10, described The top of discharge nozzle 10 is arranged on the intracavity bottom of reative cell 6, and the bottom of the discharge nozzle 10 is arranged on the bottom of dividing plate 9, institute The outer wall for stating discharge nozzle 10 is provided with magnetic valve 11, and the intracavity bottom of the reactor 1 is provided with screen cloth 12, and the screen cloth 12 is set Put in the bottom of discharge nozzle 10, the bottom of the reactor 1 is provided with waste residue discharge pipe 13, the left side wall of the reactor 1 Bottom is provided with discharging opening 14, and the inner chamber of the discharging opening 14 is plugged with plate 15, and the top plate of the plate 15 is arranged on discharging The top of mouth 14, the left wall of the reactor 1 is provided with control device 16, and the control device 16 is arranged on the top of discharging opening 14 Portion, the control device 16 is electric with heat recovery draught fan 3, electric-heating-wire-heating device 7, temperature sensor 8 and magnetic valve 11 respectively Property connection.

Wherein, stainless steel filter screen 41 is provided with the left of the inner chamber of the filter 4, the stainless steel filter screen 41 Right side sets grittiness filter layer 42, and the right side of the gravel filter layer 42 is provided with activated carbon filter layer 43, the activated carbon Filter layer 43 is arranged on the inner chamber of filter 4, prevents waste residue from entering by afterheat return pipe 2 in heat recovery draught fan 3, reduces Heat recovery draught fan 3 is damaged, the junction of the bottom of the end cover 5 and the top of reactor 1 is provided with rubber Sealing gasket, reduces the loss of heat in reative cell 6, and the outer wall of the afterheat return pipe 2 is enclosed with foam heat-insulation layer, reduces waste heat The loss of heat in return duct 2.

Operation principle：The utility model monitors the control dress that the temperature data in reative cell 6 is transmitted by temperature sensor 8 Put 16, the temperature data that control device 16 is monitored according to temperature sensor 8 controls the heating of electric-heating-wire-heating device 7 and remaining respectively The rotation of recuperation fan 3, makes reative cell 6 have enough temperature to carry out chemical reaction by the heating of electric-heating-wire-heating device 7, The waste heat in waste residue is entered by afterheat return pipe 2 in reative cell 6 by the rotation of heat recovery draught fan 3, make reaction The temperature of room 6 keeps constant, is conducive to the chemical reaction in reative cell 6 to carry out, economizes on resources simultaneously, reduces the waste of heat energy, By the setting of screen cloth 12, the separation of convenient reaction finished product and waste residue, while ensure that the waste heat in waste residue can be used again, By the setting of filter 4, prevent waste residue from entering by afterheat return pipe 2 in heat recovery draught fan 3, reduce to waste heat recovery Blower fan 3 is damaged, and reduces maintenance cost, by the setting of end cover 5, the loss of heat in reative cell 6 is reduced, by useless The setting of slag discharge pipe 13, facilitates the discharge of waste residue, prevents the accumulation of waste residue, by being engaged for discharging opening 14 and plate 15, The convenient taking-up to reacting finished product.

While there has been shown and described that embodiment of the present utility model, for the ordinary skill in the art, It is appreciated that these embodiments can be carried out in the case where not departing from principle of the present utility model and spirit a variety of changes, repaiies Change, replace and modification, scope of the present utility model is defined by the appended claims and the equivalents thereof.

Claims (4)

1. a kind of chemical pipeline deslagging residual heat using device, including reactor (1), it is characterised in that：The right side of the reactor (1) Sidewall bottom is provided with afterheat return pipe (2), and the left end of the afterheat return pipe (2) is provided with filter (4), the filtering Device (4) is arranged on the inner chamber of reactor (1), and the outer wall of the afterheat return pipe (2) is provided with heat recovery draught fan (3), institute The other end for stating afterheat return pipe (2) is connected with end cover (5), and the bottom of the end cover (5) is arranged on reactor (1) Top, the inner chamber of the reactor (1) is provided with reative cell (6), and the outer wall of the reative cell (6) is evenly arranged with heating wire Heater (7), the inner chamber left and right sidewall of the reative cell (6) is provided with temperature sensor (8), the reative cell (6) Bottom is provided with dividing plate (9), and dividing plate (9) transverse splicing is in the inner chamber of reactor (1), the inner chamber grafting of the dividing plate (9) There are the intracavity bottom that reative cell (6) are arranged at the top of discharge nozzle (10), the discharge nozzle (10), the bottom of the discharge nozzle (10) Portion is arranged on the bottom of dividing plate (9), and the outer wall of the discharge nozzle (10) is provided with magnetic valve (11), the reactor (1) it is interior Bottom of chamber portion is provided with screen cloth (12), and the screen cloth (12) is arranged on the bottom of discharge nozzle (10), and the bottom of the reactor (1) is set Waste residue discharge pipe (13) is equipped with, the bottom of the left side wall of the reactor (1) is provided with discharging opening (14), the discharging opening (14) Inner chamber be plugged with plate (15), the top plate of the plate (15) is arranged on the top of discharging opening (14), the reactor (1) Left wall is provided with control device (16), and the control device (16) is arranged on the top of discharging opening (14), the control device (16) electrically connect with heat recovery draught fan (3), electric-heating-wire-heating device (7), temperature sensor (8) and magnetic valve (11) respectively Connect.

2. a kind of chemical pipeline deslagging residual heat using device according to claim 1, it is characterised in that：The filter (4) stainless steel filter screen (41) is provided with the left of inner chamber, the right side of the stainless steel filter screen (41) sets grittiness to filter Activated carbon filter layer (43) is provided with the right side of layer (42), the gravel filter layer (42), the activated carbon filter layer (43) sets Put the inner chamber in filter (4).

3. a kind of chemical pipeline deslagging residual heat using device according to claim 1, it is characterised in that：The end cover (5) junction of bottom and the top of reactor (1) is provided with rubber gasket.

4. a kind of chemical pipeline deslagging residual heat using device according to claim 1, it is characterised in that：The afterheat return The outer wall of pipe (2) is enclosed with foam heat-insulation layer.