CN205295663U - With resin glue automatic -mixing jetting device during inorganic fiber insulation material fiber forming - Google Patents

Abstract

The utility model belongs to the technical field of resin glue mixed injection, a with resin glue automatic -mixing jetting device during inorganic fiber insulation material fiber forming is proposed, including the casing with all set up resin feed bin, hydrophober feed bin, urea feed bin, dustproof bunker, sump and the aqueous ammonia storehouse arrange in proper order in the casing, resin feed bin, hydrophober feed bin, urea feed bin all are connected just three's export with the air compressor machine and are passed through the pipeline and be connected with first blender, and the export in prevent dust bunker, sump, aqueous ammonia storehouse is passed through the pipeline and is connected with the second blender, and the export of first blender, second blender all is connected through pipeline and third blender, pipeline jetting first be connected outside with the casing is passed through in the export of third blender, and the jetting head is connected with the air pump. The utility model provides a resin glue of inorganic fiber insulation material fiber forming time jetting among the prior art mix inconvenient, the complicated and coarse technical problem of operation.

Description

With the automatic mixed injection device of resin glue during inorganic heat insulating fiber material fibroblast

Technical field

This utility model belongs to resin glue mixed injection technical field, the automatic mixed injection device of resin glue added during fibroblast centrifugal particularly to a kind of inorganic heat insulating fiber material.

Background technology

The production technology of the heat-insulation and heat-preservation sheet materials such as inorganic fiberboard is mainly: main raw material(s) adopts four axle centrifuge high speed centrifugations to become fiber after 1450 DEG C of high temperature above fusings, collect through cotton collecting machine after spraying into a certain amount of hybrid resin glue, by pendulum method technique simultaneously, carry out solidifying, cutting after spreading cotton plus 3D approach, thus packing and selling. In prior art, when spraying into a certain amount of hybrid resin glue, need artificial according to certain proportioning by after the raw material weighing and proportioning mix and blend of plurality of liquid and solid, deliver to feed bin to jet, resin glue needed for whole production line several tons at least, tens tons at most, these are all mixed very inconvenient by manually carrying out weighing, and also inaccuracy of weighing.

Utility model content

With the automatic mixed injection device of resin glue when the utility model proposes a kind of inorganic heat insulating fiber material fibroblast, solve the resin glue mixing inconvenience of winding-up during inorganic heat insulating fiber material fibroblast in prior art, complicated operation and coarse technical problem

The technical solution of the utility model is achieved in that

With the automatic mixed injection device of resin glue during inorganic heat insulating fiber material fibroblast, including

Resin feed bin, hydrophober feed bin, carbamide feed bin, dust-proof bunker, sump and the ammonia storehouse that housing and being arranged in described housing is arranged in order, described resin feed bin, described hydrophober feed bin, described carbamide feed bin are all connected with air compressor machine and the outlet of three is connected by pipeline and the first blender, described dust-proof bunker, described sump, described ammonia storehouse outlet connected by pipeline and the second blender, described first blender, described second blender outlet each through pipeline and the connection of the 3rd blender, the exit of described resin feed bin is provided with the first electromagnetic valve, the exit of described hydrophober feed bin is provided with the second electromagnetic valve, the exit of described carbamide feed bin is provided with the 3rd electromagnetic valve, the exit of described dust-proof bunker is provided with the 4th electromagnetic valve, the exit of described sump is provided with the 5th electromagnetic valve, the exit in described ammonia storehouse is provided with the 6th electromagnetic valve, the exit that described first blender connects is provided with the 7th electromagnetic valve, the exit of described second blender is provided with the 8th electromagnetic valve, the exit of described 3rd blender is provided with the 9th electromagnetic valve, described first electromagnetic valve, described second electromagnetic valve, described 3rd electromagnetic valve, described 4th electromagnetic valve, described 5th electromagnetic valve, described 6th electromagnetic valve, described 7th electromagnetic valve, described 8th electromagnetic valve, described 9th electromagnetic valve, described first blender, described second blender, described 3rd blender is all connected with controller, the outlet of described 3rd blender is connected by the blowing head of pipeline with described hull outside, and described blowing head is connected to air pump.

As further technical scheme, described 3rd blender includes stirring cage and the motor being connected with described stirring cage, and the exit of described 3rd blender is provided with filter screen.

As further technical scheme, in described resin feed bin, described hydrophober feed bin, described carbamide feed bin, described first blender, it is provided with level-sensing device; It is provided with liquidometer in described dust-proof bunker, described sump, described ammonia storehouse, described second blender, described 3rd blender.

As further technical scheme, described blowing head is curved.

As further technical scheme, described housing bottom is provided with universal wheel.

This utility model use principle and having the beneficial effect that

1, this utility model is in use, each electromagnetic valve switch is controlled by controller, controller controls the default amount of guidance panel first by resin feed bin according to operator, hydrophober feed bin, the solid materials such as carbamide feed bin proportionally mix to the first blender, by dust-proof bunker, sump, the liquid charging stocks such as ammonia storehouse proportionally mix to the second blender, controller controls the first blender, second blender mixing is after the scheduled time is respectively completed mixing, controller controls the first blender again and the second blender proportionally mixes to the 3rd blender and completes final mixing, the hybrid resin glue finally mixed again automatically by four roller centrifuges of blowing head injection to inorfil fibroblast thus completing the mixed glue of fiber forming process. whole process is controlled without personnel, eliminate manually heavy material is carried out weigh and mix, mixing match is more manually weighed more accurate simultaneously, therefore have easy to use, simple to operate, proportioning is more accurate, the advantage automatically completing mixed glue and glue spraying according to a certain ratio.

2, it is respectively arranged with level-sensing device or liquidometer in each feed bin and blender, can in monitor in real time feed bin material Specific amounts residue how many, when material deficiency, staff can be reminded to feed in raw material, the advantage therefore with reinforced convenient intelligence, further increases convenience and the automaticity of equipment.

3, in actual production process, equipment it is frequently necessary to move, and universal wheel can allow operator that equipment is moved easily, therefore has and moves integrally convenient advantage.

Accompanying drawing explanation

Below in conjunction with the drawings and specific embodiments, this utility model is described in further detail.

Fig. 1 is this utility model structural representation;

Fig. 2 is this use Novel control structure wire schematic diagram;

In figure: 1-housing, 11-universal wheel, 21-resin feed bin, 22-hydrophober feed bin, 23-carbamide feed bin, the dust-proof bunker of 24-, 25-sump, 26-ammonia storehouse, 3-air compressor machine, 41-the first blender, 42-the second blender, 43-the 3rd blender, 44-stirs cage, 45-motor, 46-filter screen, 51-the first electromagnetic valve, 52-the second electromagnetic valve, 53-the 3rd electromagnetic valve, 54-the 4th electromagnetic valve, 55-the 5th electromagnetic valve, 56-the 6th electromagnetic valve, 57-the 7th electromagnetic valve, 58-the 8th electromagnetic valve, 59-the 9th electromagnetic valve, 6-controller, 7-blowing head, 8-air pump, 91-level-sensing device, 92-liquidometer.

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is clearly and completely described, it is clear that described embodiment is only a part of embodiment of this utility model, rather than whole embodiments. Based on the embodiment in this utility model, the every other embodiment that those of ordinary skill in the art obtain under not making creative work premise, broadly fall into the scope of this utility model protection.

As shown in Fig. 1��Fig. 2, with the automatic mixed injection device of resin glue during the inorganic heat insulating fiber material fibroblast that the utility model proposes, including

Housing 1 and be arranged in housing 1 the resin feed bin 21, hydrophober feed bin 22, carbamide feed bin 23, dust-proof bunker 24, sump 25 and the ammonia storehouse 26 that are arranged in order, resin feed bin 21, hydrophober feed bin 22, carbamide feed bin 23 are all connected with air compressor machine 3 and the outlet of three is connected by pipeline and the first blender 41, dust-proof bunker 24, sump 25, ammonia storehouse 26 outlet connected by pipeline and the second blender 42, the outlet of first blender the 41, second blender 42 connects each through pipeline and the 3rd blender 43, the exit of resin feed bin 21 is provided with the first electromagnetic valve 51, the exit of hydrophober feed bin 22 is provided with the second electromagnetic valve 52, the exit of carbamide feed bin 23 is provided with the 3rd electromagnetic valve 53, the exit of dust-proof bunker 24 is provided with the 4th electromagnetic valve 54, the exit of sump 25 is provided with the 5th electromagnetic valve 55, the exit in ammonia storehouse 26 is provided with the 6th electromagnetic valve 56, the exit that first blender 41 connects is provided with the 7th electromagnetic valve 57, the exit of the second blender 42 is provided with the 8th electromagnetic valve 58, the exit of the 3rd blender 43 is provided with the 9th electromagnetic valve 59, first electromagnetic valve 51, second electromagnetic valve 52, 3rd electromagnetic valve 53, 4th electromagnetic valve 54, 5th electromagnetic valve 55, 6th electromagnetic valve 56, 7th electromagnetic valve 57, 8th electromagnetic valve 58, 9th electromagnetic valve 59, first blender 41, second blender 42, 3rd blender 43 is all connected with controller 6, the outlet of the 3rd blender 43 is connected with the blowing head 7 outside housing 1 by pipeline, and blowing head 7 is connected to air pump 8.

This utility model is in use, each electromagnetic valve switch is controlled by controller 6, controller 6 controls the default amount of guidance panel first by resin feed bin 21 according to operator, hydrophober feed bin 22, carbamide feed bin 23 solid material such as grade proportionally mixes to the first blender 41, by dust-proof bunker 24, sump 25, ammonia storehouse 26 liquid charging stock such as grade proportionally mixes to the second blender 42, controller 6 controls the first blender 41, second blender 42 mixes after the scheduled time is respectively completed mixing, controller 6 controls the first blender 41 again and the second blender 42 proportionally mixes to the 3rd blender 43 and completes final mixing, the hybrid resin glue finally mixed is sprayed the four roller centrifuges to inorfil fibroblast by blowing head 7 thus completing the mixed glue of fiber forming process more automatically. whole process is controlled without personnel, eliminate manually heavy material is carried out weigh and mix, mixing match is more manually weighed more accurate simultaneously, therefore have easy to use, simple to operate, proportioning is more accurate, the advantage automatically completing mixed glue and glue spraying according to a certain ratio.

Further, the 3rd blender 43 includes stirring cage 44 and the motor 45 being connected with stirring cage 44, and the exit of the 3rd blender 43 is provided with filter screen 46.

Further, resin feed bin 21, hydrophober feed bin 22, be provided with level-sensing device 91 in carbamide feed bin the 23, first blender 41; It is provided with liquidometer 92 in dust-proof bunker 24, sump 25, ammonia storehouse the 26, second blender the 42, the 3rd blender 43.

Level-sensing device 91 or liquidometer 92 it is respectively arranged with in each feed bin and blender, can in monitor in real time feed bin material Specific amounts residue how many, when material deficiency, staff can be reminded to feed in raw material, the advantage therefore with reinforced convenient intelligence, further increases convenience and the automaticity of equipment.

Further, blowing head 7 is curved.

Further, it is provided with universal wheel 11 bottom housing 1.

In actual production process, equipment it is frequently necessary to move, and universal wheel 11 can allow operator that equipment is moved easily, therefore has and moves integrally convenient advantage.

The foregoing is only preferred embodiment of the present utility model; not in order to limit this utility model; all within spirit of the present utility model and principle, any amendment of making, equivalent replacement, improvement etc., should be included within protection domain of the present utility model.

Claims (5)

1. with the automatic mixed injection device of resin glue during inorganic heat insulating fiber material fibroblast, it is characterized in that, including housing (1) be arranged in described housing (1) the resin feed bin (21) being arranged in order, hydrophober feed bin (22), carbamide feed bin (23), dust-proof bunker (24), sump (25) and ammonia storehouse (26), described resin feed bin (21), described hydrophober feed bin (22), described carbamide feed bin (23) is all connected with air compressor machine (3) and the outlet of three is connected by pipeline and the first blender (41), described dust-proof bunker (24), described sump (25), the outlet of described ammonia storehouse (26) is connected by pipeline and the second blender (42), described first blender (41), the outlet of described second blender (42) connects each through pipeline and the 3rd blender (43), the exit of described resin feed bin (21) is provided with the first electromagnetic valve (51), and the exit of described hydrophober feed bin (22) is provided with the second electromagnetic valve (52), the exit of described carbamide feed bin (23) is provided with the 3rd electromagnetic valve (53), the exit of described dust-proof bunker (24) is provided with the 4th electromagnetic valve (54), the exit of described sump (25) is provided with the 5th electromagnetic valve (55), the exit of described ammonia storehouse (26) is provided with the 6th electromagnetic valve (56), the exit that described first blender (41) connects is provided with the 7th electromagnetic valve (57), the exit of described second blender (42) is provided with the 8th electromagnetic valve (58), the exit of described 3rd blender (43) is provided with the 9th electromagnetic valve (59), described first electromagnetic valve (51), described second electromagnetic valve (52), described 3rd electromagnetic valve (53), described 4th electromagnetic valve (54), described 5th electromagnetic valve (55), described 6th electromagnetic valve (56), described 7th electromagnetic valve (57), described 8th electromagnetic valve (58), described 9th electromagnetic valve (59), described first blender (41), described second blender (42), described 3rd blender (43) is all connected with controller (6), the outlet of described 3rd blender (43) is connected by the blowing head (7) that pipeline is outside with described housing (1), and described blowing head (7) is connected to air pump (8).

2. with the automatic mixed injection device of resin glue during inorganic heat insulating fiber material fibroblast according to claim 1, it is characterized in that, described 3rd blender (43) includes stirring cage (44) and the motor (45) being connected with described stirring cage (44), and the exit of described 3rd blender (43) is provided with filter screen (46).

3. with the automatic mixed injection device of resin glue during inorganic heat insulating fiber material fibroblast according to claim 1, it is characterized in that, in described resin feed bin (21), described hydrophober feed bin (22), described carbamide feed bin (23), described first blender (41), be provided with level-sensing device (91); It is provided with liquidometer (92) in described dust-proof bunker (24), described sump (25), described ammonia storehouse (26), described second blender (42), described 3rd blender (43).

4. with the automatic mixed injection device of resin glue during inorganic heat insulating fiber material fibroblast according to claim 1, it is characterised in that described blowing head (7) is curved.

5. with the automatic mixed injection device of resin glue during inorganic heat insulating fiber material fibroblast according to claim 1, it is characterised in that described housing (1) bottom is provided with universal wheel (11).