CN209158986U - A kind of equipment producing polymerization styrofoam - Google Patents
A kind of equipment producing polymerization styrofoam Download PDFInfo
- Publication number
- CN209158986U CN209158986U CN201821360868.2U CN201821360868U CN209158986U CN 209158986 U CN209158986 U CN 209158986U CN 201821360868 U CN201821360868 U CN 201821360868U CN 209158986 U CN209158986 U CN 209158986U
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- Prior art keywords
- fireproof material
- equipment
- inorganic fireproof
- conveyer belt
- charging ladle
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Abstract
The utility model discloses a kind of equipment for producing polymerization styrofoam, its key points of the technical solution are that including rack, conveyer belt, seepage hole, U-shaped cavity, exhaust tube, rewinding cylinder, vacuum pump, support frame, charging ladle and discharge nozzle and discharging switch, the seepage hole is through-hole, and the upside of the conveyer belt of U-shaped cavity position is arranged in support frame as described above.The utility model solves existing equipment, and in production, there are a deficiencies, be exactly inorganic fireproof material penetrate into styrofoam speed it is too slow, it needs to carry out to wash away inorganic fireproof material repeatedly for a long time, styrofoam could be made to penetrate into complete problem, have higher speed when so that inorganic fireproof material penetrating into styrofoam when manufacture polymerize styrofoam.
Description
Technical field
The utility model relates to styrofoam production field, in particular to a kind of equipment for producing polymerization styrofoam.
Background technique
Styrofoam, full name polystyrene foam plate also known as cystosepiment or EPS sheet, styrofoam can be used for construction wall, roofing
Various models etc. are carved in heat preservation, the insulating layer of composite insulating board and decoration.Polymerizeing styrofoam is in traditional molding polyphenyl second
It is improved on the basis of alkene cystosepiment, to reach the novel heat insulation heat-barrier material of A grades of flame retardant effects.It has not only continued biography
The advantages that eps foam plate thermal coefficient of uniting is small, good effect of heat insulation, lightweight, and compensate for traditional eps foam plate flame retardant effect
The disadvantage of difference, while the problem that similar flame retardant effect quality of materials weight, price are high in the market is overcome, it is a kind of ideal heat preservation
Heat-barrier material has the extensive market demand.
The equipment of existing production polymerization styrofoam is usually that inorganic fireproof material is uniformly penetrated into styrofoam, so that organic
Polymerization curing reaction occurs for material and inorganic material, so that being wrapped in the special inorganic of fire protecting performance around granular polystyrene
Material crystalline body, filling uniformly, completely cut off air, change former styrofoam and meet the defect that fire is shunk.
Inorganic fireproof material is a kind of grey powder material, can be used for the hole envelope of wire and cable after it is mixed with water
The stifled or fire resisting wall as electric wire tunnel.The product adds chemical assistant to mix by inorganic material, in powdered, has intensity
Height, water-fast, corrosion-resistant, odorlessness, it is easy for construction the features such as.The fire proofing material is nontoxic, first smell, there is preferable water-fast, oil resistant
Etc. performances, construction method it is simple.Its oxygen index (OI) is 100, belongs to incombustible material.Fire resistance period is ready to accept a higher or a lower post up to 3 hours.To some
The engineering permanently used had not only been saved engineering cost using inorganic material but also had kept engineering secured.
For the equipment of existing manufacture polymerization styrofoam in production, most of is to be stirred by washing away in styrofoam with water
Uniform inorganic fireproof material, so that inorganic fireproof material is penetrated into styrofoam.But existing equipment production when there are one
A deficiency, be exactly inorganic fireproof material penetrate into styrofoam speed it is too slow, need to carry out to wash away inorganic fire repeatedly for a long time
Material could make styrofoam penetrate into complete.
Utility model content
The purpose of this utility model is to provide it is a kind of produce polymerization styrofoam equipment, it by existing equipment into
Row improves, so that inorganic fireproof material has higher permeating speed during manufacturing, so that the speed of the polymerization styrofoam produced
Faster.
The above-mentioned purpose of the utility model has the technical scheme that
A kind of equipment producing polymerization styrofoam, including the rack being placed on the ground, the conveyer belt being arranged on the rack,
Be arranged the seepage hole being equally spaced along its length on the conveyor belt, be arranged in be fixedly connected on the downside of conveyer belt with rack it is U-shaped
Chamber, the exhaust tube being connected in U-shaped cavity are connected to the rewinding cylinder of separate U-shaped cavity one end on exhaust tube, are connected on rewinding cylinder
Vacuum pump, the support frame being fixedly connected in rack are fixedly connected with charging ladle on the support frame and are arranged on the downside of charging ladle
Discharge nozzle and discharging switch, the seepage hole be through-hole, the upside of the conveyer belt of U-shaped cavity position is arranged in support frame as described above.
By using above-mentioned technical proposal, when carrying out penetrating into the work of inorganic fireproof material to cystosepiment, staff
The inorganic fireproof material stirred evenly is first contained in charging ladle, is then opened discharging switch and conveyer belt, so that charging ladle
In inorganic fireproof material dripped on the conveyor belt via discharge nozzle, then vacuum pump is opened, so that vacuum pump takes out U-shaped cavity
Gas, so that the air in U-shaped cavity is constantly extracted, meanwhile, inorganic fireproof material flows into seepage hole, into U-shaped cavity, via exhaust tube
Rewinding cylinder is flowed into, after completing these preparations, cystosepiment is placed on the conveyor belt, so that drive of the cystosepiment in conveyer belt
Under move to the downside of discharge nozzle so that inorganic fireproof material is dropped on cystosepiment, and cystosepiment on the conveyor belt with infiltration
Port lid closes, so that when drop has the cystosepiment of inorganic fireproof material by U-shaped cavity, under the suction of vacuum pump, cystosepiment
On inorganic fireproof material moved towards seepage hole direction, and be that gap between the granular polystyrene in cystosepiment is flowed into
In seepage hole, so that the speed that inorganic fireproof material is penetrated into inside cystosepiment is accelerated, compared with the prior art, for inorganic fire material
The speed that material penetrates into inside cystosepiment is greatly improved, so that the speed of the polymerization styrofoam produced is faster.Pass through
Existing equipment is improved, so that inorganic fireproof material has higher permeating speed during manufacturing, so that is produced is poly-
Close the speed of styrofoam faster.
The utility model is further arranged to: being provided on the conveyer belt and is equally spaced along conveyer belt width direction
Multiple groups seepage hole is provided with multiple discharge ports along conveyer belt width direction corresponding with seepage hole on the downside of the discharge nozzle.
By using above-mentioned technical proposal, it is provided with the multiple groups seepage hole in conveyer belt width direction on the conveyor belt, and
And multiple discharge ports corresponding with seepage hole are provided on the downside of discharge nozzle, it is corresponding with seepage hole to be provided with multiple groups on the downside of conveyer belt
U-shaped cavity, so that multiple groups seepage hole and discharge port work together when carrying out infiltration inorganic fireproof material to cystosepiment, so that inorganic
The area that fire proofing material penetrates into is bigger, further improves the speed of manufacture.
The utility model is further arranged to: being fixedly connected with expansion disk on the discharge port, is arranged on the expansion disk
There is the through-hole being evenly arranged.
By using above-mentioned technical proposal, the expansion disk with the through-hole being evenly arranged is fixedly connected on discharge port,
Expand in disk so that inorganic fireproof material enters when coming out from discharge port, is dropped on cystosepiment using disk is expanded, so that
The area further expansion of the inorganic fireproof material of discharge port drippage, further improves the speed of manufacture.
The utility model is further arranged to: is provided on the charging ladle for preventing inorganic fireproof material in charging ladle
The anti-condensation stirring motor of solidification.
By using above-mentioned technical proposal, in actual production process, manufactures, charging ladle is arranged for convenience generally
It is larger, and the speed of the inorganic fireproof material of discharge nozzle discharge is less than the speed of charging, and inorganic fireproof material is being stirred
After mixing uniformly the phenomenon that will appear solidification after a period of time, so that inorganic fireproof material in charging ladle can not be from discharging
Pipe drippage, so be provided on charging ladle for preventing the anti-condensation stirring motor that inorganic fireproof material solidifies in charging ladle, it is right
Inorganic fireproof material in charging ladle is stirred, and both having made inorganic fireproof material in charging ladle is not in solidification, is also made
In charging ladle inorganic fireproof material stirring it is more uniform.
The utility model is further arranged to: being communicated with protection cylinder between the rewinding cylinder and vacuum pump.
By using above-mentioned technical proposal, with the continuous work of vacuum pump, and the inorganic fire in conjunction with cystosepiment
Material is sub-fraction, and most inorganic fireproof material enters rewinding cylinder via exhaust tube, inorganic anti-in rewinding cylinder
When fiery material is soon filled, staff needs to stop vacuum pump, and the inorganic fireproof material in rewinding cylinder is discharged, but
When vacuum pump is stopped, vacuum pump will not stop at once, can also act a period of time, and then certain suction occur, may
Meeting impacts vacuum pump so that inorganic fireproof material enters vacuum pump, and inorganic fireproof material enters vacuum pump in order to prevent,
It is communicated with protection cylinder between rewinding cylinder and vacuum pump, so that the inorganic fireproof material in rewinding cylinder is soon filled, work people
When member stops vacuum pump, even if vacuum pump will not stop at once, and there are also certain suction, inorganic fireproof material is also
It enters in protection cylinder, will not enter in vacuum pump, vacuum pump is impacted.
The utility model is further arranged to: being connected with cooler bin on the vacuum pump.
By using above-mentioned technical proposal, it is also connected with cooler bin on vacuum pump, coolant liquid is housed in cooler bin, so that very
Sky pump at work cools down coolant liquid extraction to vacuum pump, prevents vacuum pump from occurring the feelings generated heat in long-term work
Condition, and transfer heat on the cystosepiment not manufactured completely on conveyer belt, cystosepiment is impacted.
The utility model is further arranged to: blender is additionally provided with beside the rack, blender includes agitator
And stirring motor, mateiral pump is connected on the agitator, is provided with connecting tube on the mateiral pump, and the connecting tube is far from taking out
One end of material pump is connected to charging ladle.
By using above-mentioned technical proposal, when in use, first inorganic fireproof material and stirring liquid is put into agitator, opened
Dynamic stirring motor is stirred the inorganic fireproof material in agitator with stirring liquid, after mixing evenly, material is taken out in starting
Pump completes the process of charging so that inorganic fireproof material enters charging ladle via connecting tube.By the way that mateiral pump is arranged, so that work
Make more convenient when personnel feed in charging ladle.
The utility model is further arranged to: transfer pond, the mateiral pump are provided between the agitator and charging ladle
It is arranged in transfer pond.
By using above-mentioned technical proposal, when in use, first inorganic fireproof material and stirring liquid is put into agitator, opened
Dynamic stirring motor, in agitator inorganic fireproof material and stirring liquid be stirred, after mixing evenly, by inorganic fire material
Material is discharged into transfer pond, and transfer pond is more compared to the inorganic fireproof material of stirring barreled, does not also need the starting always in charging and stirs
Mix machine;After completing the charging of transfer pond, start the mateiral pump in transfer pond, so that inorganic fireproof material enters dress via connecting tube
Charging basket completes the process of charging.It, will not be blender occur inorganic in agitator while agitating by the way that transfer pond is arranged
Fire proofing material is extracted out by mateiral pump, leads to the non-uniform phenomenon of stirring, but also be not in the inorganic fire in agitator
Raw material useless carrys out source problem in charging ladle after materials'use.
The utility model is further arranged to: being provided with bracket on the transfer pond, is fixedly connected on the bracket anti-
Solidifying stirring motor.
By using above-mentioned technical proposal, it is provided with bracket on transfer pond, anti-condensation stirring electricity is fixedly connected on bracket
Machine prevents transfer pond so that the inorganic fireproof material being contained in transfer pond stirs always under the action of anti-condensation stirring motor
In inorganic fireproof material solidification.
The utility model is further arranged to: being provided with recovery tube on the downside of the rewinding cylinder, is arranged on the recovery tube
There is recycling to switch, the recovery tube protrudes into transfer pond far from one end of rewinding cylinder.
By using above-mentioned technical proposal, for the recycling and utilization of inorganic fireproof material of being more convenient for, under rewinding cylinder
Side is provided with recovery tube, recycling switch is provided on recovery tube, and recovery tube protrudes into transfer pond far from one end of rewinding cylinder.?
When inorganic fireproof material in rewinding cylinder is filled, opens recycling switch and stirred so that inorganic fireproof material flows into transfer pond anti-condensation
It mixes and stirs evenly under the action of motor, then enter charging ladle under the action of mateiral pump, so that inorganic fireproof material repeats
It uses.
In conclusion the utility model has the following beneficial effects:
1, by being improved to existing equipment, so that inorganic fireproof material has higher permeating speed during manufacturing,
So that the speed of the polymerization styrofoam produced is faster;
2, by being communicated with protection cylinder between rewinding cylinder and vacuum pump, so that the inorganic fireproof material in rewinding cylinder is not
It can enter in vacuum pump, vacuum pump is impacted;
3, by setting transfer pond, inorganic fireproof material quilt of the blender while agitating in agitator will not occur
Mateiral pump extraction, leads to the non-uniform phenomenon of stirring, but also is not in that inorganic fireproof material in agitator has used
Raw material useless carrys out source problem in charging ladle after finishing.
Detailed description of the invention
Fig. 1 is the schematic diagram of the equipment of production polymerization styrofoam in embodiment 1;
Fig. 2 is the schematic diagram that U-shaped cavity is arranged in embodiment 1 in rack;
Fig. 3 is the location drawing of discharge nozzle and discharging switch in embodiment 1;
Fig. 4 is the schematic diagram in transfer pond in embodiment 1.
In figure, 1, rack;2, conveyer belt;3, seepage hole;4, U-shaped cavity;5, exhaust tube;6, rewinding cylinder;7, vacuum pump;8, it supports
Frame;9, charging ladle;10, discharge nozzle;11, discharging switch;12, discharge port;13, expand disk;14, anti-condensation stirring motor;15, it protects
Cylinder;16, cooler bin;17, blender;171, agitator;172, stirring motor;18, mateiral pump;19, transfer pond;20, connecting tube;
21, bracket;22, recovery tube;23, recycling switch.
Specific embodiment
The utility model is described in further detail below in conjunction with attached drawing.
Embodiment 1: a kind of equipment producing polymerization styrofoam, as shown in Figure 1 and Figure 2, including the rack being placed on the ground
1, conveyer belt 2 is provided in rack 1, offers the seepage hole 3 being equally spaced on along its length in conveyer belt 2, seepage hole 3 is logical
Hole, and be connected to the U-shaped cavity 4 that 2 downside of conveyer belt is arranged in, U-shaped cavity 4 is fixedly connected in rack 1, and is connected in U-shaped cavity 4
Exhaust tube 5, the other end of exhaust tube 5 are connected with rewinding cylinder 6, vacuum pump 7 are connected on rewinding cylinder 6, moreover, in 4 position of U-shaped cavity
Rack 1 on be provided with the support frame 8 to link together with rack 1, be fixedly connected with charging ladle 9 on support frame 8, referring to Fig. 3,
The downside of charging ladle 9 is provided with discharge nozzle 10 and discharging switch 11, wherein the discharge port 12 on discharge nozzle 10 flows out inorganic anti-
Fiery material is dropped in the upside of seepage hole 3.
As shown in Figure 1, staff is first in charging ladle 9 when carrying out penetrating into the work of inorganic fireproof material to cystosepiment
It is middle to contain the inorganic fireproof material stirred evenly, then discharging switch 11 and conveyer belt 2 are opened, so that the nothing in charging ladle 9
Machine fire proofing material is dropped on conveyer belt 2 via discharge nozzle 10, then opens vacuum pump 7, so that vacuum pump 7 takes out U-shaped cavity 4
Gas, so that the air in U-shaped cavity 4 is constantly extracted, meanwhile, inorganic fireproof material flows into seepage hole 3, into U-shaped cavity 4, via pumping
Tracheae 5 flows into rewinding cylinder 6, after completing these preparations, cystosepiment is placed on conveyer belt 2, so that cystosepiment is conveying
The downside of discharge nozzle 10 is moved under drive with 2, so that inorganic fireproof material is dropped on cystosepiment, and cystosepiment is defeated
It send to cover on band 2 with seepage hole 3 and close, so that when drop has the cystosepiment of inorganic fireproof material by U-shaped cavity 4, in the suction of vacuum pump 7
Under effect, inorganic fireproof material on cystosepiment is moved towards 3 direction of seepage hole, and be granular polystyrene in cystosepiment it
Between gap be flowed into seepage hole 3 so that inorganic fireproof material penetrate into cystosepiment inside speed accelerate, relatively existing skill
Art, the speed penetrated into inside cystosepiment for inorganic fireproof material is greatly improved, so that the polymerization polyphenyl produced
The speed of plate is faster.By being improved to existing equipment, so that inorganic fireproof material has higher infiltration speed during manufacturing
Degree, so that the speed of the polymerization styrofoam produced is faster.
In order to further increase the speed of manufacture, the multiple groups being provided in 2 width direction of conveyer belt on conveyer belt 2 are seeped
Hole 3, and the downside of discharge nozzle 10 is provided with multiple discharge ports 12 in 2 width direction of conveyer belt corresponding with seepage hole 3, it is defeated
The downside of band 2 is sent to be provided with multiple groups U-shaped cavity 4 corresponding with seepage hole 3, so that carrying out infiltration inorganic fireproof material to cystosepiment
When, multiple groups seepage hole 3 and discharge port 12 work together, so that the area that inorganic fireproof material is penetrated into is bigger, further improve
The speed of manufacture, here for clarity, being disposed as two groups.
In addition, expanding disk 13 as shown in figure 3, being fixedly connected on discharge port 12, expands and be provided with uniform cloth on disk 13
The through-hole set expands in disk 13 so that inorganic fireproof material enters when coming out from discharge port 12, drips using disk 13 is expanded
On cystosepiment, so that the area further expansion for the inorganic fireproof material that discharge port 12 drips, further improves system
The speed made.
As shown in Figure 1, in actual production process, manufacture for convenience, generally charging ladle 9 is arranged it is larger, and
And the speed of the inorganic fireproof material of the discharge of discharge nozzle 10 is less than the speed of charging, and inorganic fireproof material is after mixing evenly
The phenomenon that will appear solidification after a period of time, so that the inorganic fireproof material in charging ladle 9 can not be dripped from discharge nozzle 10
It falls, so be provided on charging ladle 9 for preventing the anti-condensation stirring motor 14 that inorganic fireproof material solidifies in charging ladle 9, it is right
Inorganic fireproof material in charging ladle 9 is stirred, and both having made inorganic fireproof material in charging ladle 9 is not in solidification,
So that in charging ladle 9 inorganic fireproof material stir it is more uniform.
As shown in Figure 1, on the other hand, with the continuous work of vacuum pump 7, and the inorganic fire in conjunction with cystosepiment
Material is sub-fraction, and most inorganic fireproof material enters rewinding cylinder 6 via exhaust tube 5, inorganic in rewinding cylinder 6
When fire proofing material is soon filled, staff needs to stop vacuum pump 7, and the inorganic fireproof material in rewinding cylinder 6 is discharged, but
It is when stopping vacuum pump 7, vacuum pump 7 will not stop at once, can also act a period of time, and then certain suction occur
Power may be such that inorganic fireproof material enters vacuum pump 7, impacts to vacuum pump 7, in order to prevent inorganic fireproof material into
Enter vacuum pump 7, protection cylinder 15 is communicated between rewinding cylinder 6 and vacuum pump 7, so that the inorganic fireproof material in rewinding cylinder 6
It soon fills, when staff stops vacuum pump 7, even if vacuum pump 7 will not stop at once, and there are also certain suctions
Power, inorganic fireproof material are also into protection cylinder 15, will not be entered in vacuum pump 7, are impacted to vacuum pump 7.And
And cooler bin 16 is also connected on vacuum pump 7, coolant liquid is housed, so that vacuum pump 7 is at work by coolant liquid in cooler bin 16
The case where extraction cools down vacuum pump 7, prevents vacuum pump 7 from generating heat in long-term work, and transfer heat to
On the cystosepiment not manufactured completely on conveyer belt 2, cystosepiment is impacted.
As shown in Figure 1, being additionally provided with blender 17 on the side of rack 1, blender 17 includes agitator 171 and stirring electricity
Machine 172 is connected with mateiral pump 18 on agitator 171, and referring to Fig. 4, transfer pond 19 is provided between agitator 171 and charging ladle 9,
Mateiral pump 18 is arranged in transfer pond 19, and the connecting tube 20 being arranged on mateiral pump 18 is connected to charging ladle 9.Wherein, transfer pond 19
On be additionally provided with bracket 21, anti-condensation stirring motor 14 is fixedly connected on bracket 21.
When in use, first inorganic fireproof material and stirring liquid are put into agitator 171, start stirring motor 172, to stirring
It mixes the inorganic fireproof material in bucket 171 and stirring liquid is stirred, after mixing evenly, inorganic fireproof material is discharged into transfer pond
19, transfer pond 19 is more compared to the inorganic fireproof material that agitator 171 fills, and does not also need to start blender always in charging
17;After completing transfer pond 19 and feeding, start the mateiral pump 18 in transfer pond 19, so that inorganic fireproof material is via connecting tube 20
Into charging ladle 9, the process of charging is completed.By the way that transfer pond 19 is arranged, will not be stirred while agitating there is blender 17
The inorganic fireproof material mixed in bucket 171 is extracted out by mateiral pump 18, leads to the non-uniform phenomenon of stirring, but also be not in stir
That mixes after the inorganic fireproof material use in bucket 171 raw material useless in charging ladle 9 carrys out source problem.
In addition, being provided with bracket 21 on transfer pond 19, anti-condensation stirring motor 14 is fixedly connected on bracket 21, so that containing
Inorganic fireproof material in transfer pond 19 stirs always under the action of anti-condensation stirring motor 14, prevents in transfer pond 19
Inorganic fireproof material solidification.
As shown in figure 4, being provided with back for the recycling and utilization of inorganic fireproof material of being more convenient in the downside of rewinding cylinder 6
Closed tube 22 is provided with recycling switch 23 on recovery tube 22, and recovery tube 22 protrudes into transfer pond 19 far from one end of rewinding cylinder 6.
When inorganic fireproof material in rewinding cylinder 6 is filled, recycling switch 23 is opened, so that inorganic fireproof material flows into transfer pond 19,
It is stirred evenly under the action of anti-condensation stirring motor 14, then enters charging ladle 9 under the action of mateiral pump 18, so that inorganic
Fire proofing material is reused.
The application method of the utility model is, as shown in Figure 1, in the work for penetrate into cystosepiment inorganic fireproof material
When, staff first contains the inorganic fireproof material stirred evenly in charging ladle 9, then by discharging switch 11 and conveyer belt 2
It opens, so that the inorganic fireproof material in charging ladle 9 is dropped on conveyer belt 2 via discharge nozzle 10, then opens vacuum pump 7, make
Vacuum pump 7 is obtained to be evacuated U-shaped cavity 4, so that the air in U-shaped cavity 4 is constantly extracted, meanwhile, inorganic fireproof material flows into
Seepage hole 3 flows into rewinding cylinder 6 via exhaust tube 5, after completing these preparations, cystosepiment is placed on conveying into U-shaped cavity 4
On band 2, so that cystosepiment moves to the downside of discharge nozzle 10 under the drive of conveyer belt 2, so that inorganic fireproof material is dropped in
On cystosepiment, and cystosepiment is covered with seepage hole 3 on conveyer belt 2 and is closed, so that having the cystosepiment of inorganic fireproof material by U in drop
When type chamber 4, under the suction of vacuum pump 7, the inorganic fireproof material on cystosepiment is moved towards 3 direction of seepage hole, Er Qieshi
The gap between granular polystyrene in cystosepiment is flowed into seepage hole 3, so that inorganic fireproof material is penetrated into cystosepiment
The speed in portion is accelerated, and compared with the prior art, the speed penetrated into inside cystosepiment for inorganic fireproof material is greatly improved, into
And make the speed of the polymerization styrofoam produced faster.By being improved to existing equipment, so that inorganic fireproof material
There is higher permeating speed during manufacturing, so that the speed of the polymerization styrofoam produced is faster.
This specific embodiment is only the explanation to the utility model, is not limitations of the present invention, ability
Field technique personnel can according to need the modification that not creative contribution is made to the present embodiment after reading this specification, but
As long as all by the protection of Patent Law in the scope of the claims of the utility model.
Claims (10)
1. it is a kind of produce polymerization styrofoam equipment, it is characterised in that: including be placed on the ground rack (1), be arranged in machine
The seepage hole (3) being equally spaced along its length on conveyer belt (2) is arranged in conveyer belt (2) on frame (1), setting is conveying
With the U-shaped cavity (4) being fixedly connected on the downside of (2) with rack (1), the exhaust tube (5) being connected on U-shaped cavity (4), it is connected to exhaust tube
(5) on far from U-shaped cavity (4) one end rewinding cylinder (6), be connected on rewinding cylinder (6) vacuum pump (7), be fixedly connected with rack (1)
On support frame (8), the charging ladle (9) that is fixedly connected on support frame (8) and the discharge nozzle being arranged on the downside of charging ladle (9)
(10) and discharging switch (11), the seepage hole (3) are through-hole, and the conveyer belt in U-shaped cavity (4) position is arranged in support frame as described above (8)
(2) upside.
2. a kind of equipment for producing polymerization styrofoam according to claim 1, it is characterised in that: on the conveyer belt (2)
It is provided with the multiple groups seepage hole (3) being equally spaced along conveyer belt (2) width direction, is provided on the downside of the discharge nozzle (10) more
A discharge port (12) along conveyer belt (2) width direction corresponding with seepage hole (3).
3. a kind of equipment for producing polymerization styrofoam according to claim 2, it is characterised in that: on the discharge port (12)
It is fixedly connected with and expands disk (13), be provided with the through-hole being evenly arranged on the expansion disk (13).
4. a kind of equipment for producing polymerization styrofoam according to claim 3, it is characterised in that: on the charging ladle (9)
It is provided with for preventing the anti-condensation stirring motor (14) that inorganic fireproof material solidifies in charging ladle (9).
5. it is according to claim 4 it is a kind of produce polymerization styrofoam equipment, it is characterised in that: the rewinding cylinder (6) with
Protection cylinder (15) are communicated between vacuum pump (7).
6. a kind of equipment for producing polymerization styrofoam according to claim 5, it is characterised in that: on the vacuum pump (7)
It is connected with cooler bin (16).
7. a kind of equipment for producing polymerization styrofoam according to claim 6, it is characterised in that: the side of the rack (1)
While being additionally provided with blender (17), blender (17) includes agitator (171) and stirring motor (172), the agitator (171)
On be connected with mateiral pump (18), be provided with connecting tube (20) on the mateiral pump (18), the connecting tube (20) is far from mateiral pump
(18) one end is connected to charging ladle (9).
8. a kind of equipment for producing polymerization styrofoam according to claim 7, it is characterised in that: the agitator (171)
It is provided between charging ladle (9) transfer pond (19), the mateiral pump (18) is arranged in transfer pond (19).
9. a kind of equipment for producing polymerization styrofoam according to claim 8, it is characterised in that: on the transfer pond (19)
It is provided with bracket (21), is fixedly connected with anti-condensation stirring motor (14) on the bracket (21).
10. a kind of equipment for producing polymerization styrofoam according to claim 9, it is characterised in that: the rewinding cylinder (6)
Downside is provided with recovery tube (22), recycling switch (23) is provided on the recovery tube (22), the recovery tube (22) is far from receipts
Transfer pond (19) are protruded into one end of barrel (6).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821360868.2U CN209158986U (en) | 2018-08-22 | 2018-08-22 | A kind of equipment producing polymerization styrofoam |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821360868.2U CN209158986U (en) | 2018-08-22 | 2018-08-22 | A kind of equipment producing polymerization styrofoam |
Publications (1)
Publication Number | Publication Date |
---|---|
CN209158986U true CN209158986U (en) | 2019-07-26 |
Family
ID=67330026
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201821360868.2U Expired - Fee Related CN209158986U (en) | 2018-08-22 | 2018-08-22 | A kind of equipment producing polymerization styrofoam |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN209158986U (en) |
-
2018
- 2018-08-22 CN CN201821360868.2U patent/CN209158986U/en not_active Expired - Fee Related
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Granted publication date: 20190726 Termination date: 20200822 |