CN214491286U - Automatic forming machine for insulation board - Google Patents
Automatic forming machine for insulation board Download PDFInfo
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- CN214491286U CN214491286U CN202023329937.3U CN202023329937U CN214491286U CN 214491286 U CN214491286 U CN 214491286U CN 202023329937 U CN202023329937 U CN 202023329937U CN 214491286 U CN214491286 U CN 214491286U
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Abstract
The utility model belongs to the technical field of heated board processing and specifically relates to an automatic make-up machine of heated board is related to, and it includes the organism, be equipped with the pipe assembly on the organism, the pipe assembly is including the outlet duct of locating organism one side, the intercommunication is equipped with a plurality of breather pipes on the outlet duct, breather pipe and the inside intercommunication of organism, the equidistant distribution of breather pipe is in the upper and lower surface of organism. When the internal expert of machine has steam, make steam flow to a plurality of breather pipes department with the help of a plurality of breather pipes, this application has the steam in the organism of being convenient for to spread everywhere for the raw materials granule is heated more evenly, thereby guarantees that raw materials granule density everywhere can keep unanimously, improves the effect of raw materials granule's quality.
Description
Technical Field
The application relates to the field of heated board processing, especially relates to an automatic make-up machine of heated board.
Background
At present, in the production process of the insulation board, an automatic forming machine is required to heat, extrude and form raw material particles.
Among the correlation technique, refer to the chinese utility model patent that the grant bulletin number is CN211762973U, it discloses the automatic plate machine of EPS foam, including the plate machine body, be fixed in support frame and one end and the articulated revolving door of plate machine body lower extreme, be fixed with intake pipe and outlet duct on the plate machine body, intake pipe and outlet duct all communicate with each other with the shaping chamber, the one end that the plate machine body was kept away from to intake pipe and outlet duct is connected with the breather pipe, link to each other the breather pipe with external trachea, ventilate and follow the breather pipe input with steam, steam in the breather pipe enters into in the intake pipe, steam is entering into the shaping intracavity, steam is processed the shaping intracavity foam particle, steam after good processing is discharged by the outlet duct, steam is in entering into the intake pipe.
To the correlation technique among the above-mentioned, the inventor thinks that steam only discharges through an outlet duct for the foam particle who keeps away from outlet duct department can't guide steam better, and then the partial heating degree that is close to intake pipe and outlet duct is low with the partial heating degree of keeping away from intake pipe and outlet duct, makes the heated board that processing was accomplished the situation that the density differs appear, has influenced the quality of heated board.
SUMMERY OF THE UTILITY MODEL
In order to guarantee that the density of heated board each department is unanimous, improve the quality of heated board, this application provides an automatic make-up machine of heated board.
The application provides a pair of automatic make-up machine of heated board adopts following technical scheme:
the utility model provides an automatic make-up machine of heated board, includes the organism, be equipped with the pipe assembly on the organism, the pipe assembly is including the outlet duct of locating organism one side, the intercommunication is equipped with a plurality of breather pipes on the outlet duct, breather pipe and the inside intercommunication of organism, the breather pipe is equidistant distribution in the upper and lower surface of organism.
Through adopting above-mentioned technical scheme, when the organism expert has steam, make steam to a plurality of breather pipe departments flow with the help of a plurality of breather pipes to the steam of being convenient for is to the diffusion everywhere, makes the raw materials granule be heated more evenly, thereby guarantees that raw materials granule density everywhere can keep unanimous, improves the quality of raw materials granule.
Optionally, each vent pipe is communicated with a plurality of steam pipes, and the steam pipes are communicated with the inside of the machine body.
Through adopting above-mentioned technical scheme, increase the passageway that the steam after the cooling flows out, the steam of being convenient for is to diffusion all around.
Optionally, the upper side of the machine body is covered with a gas collecting hood, and the gas collecting hood is communicated with an exhaust pipe.
Through adopting above-mentioned technical scheme, the heated board can produce harmful gas under high temperature environment, and the exhaust tube outwards bleeds and collects, can reduce the pollution of harmful gas to the environment.
Optionally, a plurality of communicating pipes are arranged on the upper side of the gas collecting hood at equal intervals, and the communicating pipes are communicated with the exhaust pipe.
Through adopting above-mentioned technical scheme, collect the harmful gas of all directions simultaneously with the help of a plurality of communicating pipes for harmful gas can be taken out and collect better.
Optionally, a heat preservation mechanism is arranged on the outer side of the pipeline assembly.
Through adopting above-mentioned technical scheme, keep warm to pipeline assembly with the help of heat preservation mechanism, because refrigerated steam easily condenses to the difficult discharge of moisture, can keep warm to the steam in the pipeline assembly with the help of heat preservation mechanism this moment, reduce the possibility of condensation.
Optionally, the heat preservation mechanism includes a first heat preservation assembly, the first heat preservation assembly includes two half cover bodies that are buckled with each other, and the half cover bodies are sleeved on the outer side of the steam pipe.
Through adopting above-mentioned technical scheme, cut apart into two half covers with first heat preservation subassembly, the installation of the half cover of being convenient for two half covers can cup joint in the outside of steam pipe completely.
Optionally, the outer sides of the two half cover bodies are sleeved with a connecting assembly for locking the two half cover bodies.
Through adopting above-mentioned technical scheme, because the edge opening that two half cover bodies are connected, connect the locking with two half cover bodies with the help of coupling assembling, reduce the possibility that the condition of two half cover bodies separation takes place.
Optionally, the connecting assembly includes a connecting sleeve with elasticity, an edge of the connecting sleeve is opened, and two edges of the connecting sleeve close to the opening are felted.
Through adopting above-mentioned technical scheme, make two edges of adapter sleeve connect more conveniently with the help of the mode of felting, reduce the possibility that two edge separation of adapter sleeve etc. circumstances take place.
Optionally, the outer sides of the half cover bodies are fixed with protrusions, the connecting sleeve penetrates through the through hole, and the protrusions are inserted into the through hole.
By adopting the technical scheme, the connecting sleeve is inserted into the through hole by virtue of the bulge, so that the possibility of the situation that the connecting sleeve slides down along the steam pipe and the like is reduced.
Optionally, a connecting rod is fixed between the protrusion and the first heat-preservation assembly, the diameter of the connecting rod is equal to the inner diameter of the through hole, the protrusion is hemispherical, and the diameter of the protrusion is larger than that of the connecting rod.
Through adopting above-mentioned technical scheme, carry on spacingly with the help of the arch to the adapter sleeve for the adapter sleeve is connected more firmly with first half cover, second half cover.
In summary, the present application includes at least one of the following beneficial technical effects:
1. when steam is introduced into the machine body, the steam flows to the plurality of vent pipes by virtue of the plurality of vent pipes, so that the steam is conveniently diffused to four places, the raw material particles are heated more uniformly, the density of the raw material particles at each place can be kept consistent, and the quality of the raw material particles is improved;
2. the heat insulation board can generate harmful gas in a high-temperature environment, the air exhaust pipe exhausts the air outwards and collects the air, and the pollution of the harmful gas to the environment can be reduced;
3. the first heat-preservation assembly is divided into two half cover bodies, so that the half cover bodies can be conveniently installed, and the two half cover bodies can be completely sleeved on the outer side of the steam pipe.
Drawings
Fig. 1 is a schematic overall structure diagram of an automated molding machine according to an embodiment of the present application.
Fig. 2 is a schematic overall structure diagram of an automated molding machine according to a second embodiment of the present application.
Fig. 3 is a schematic structural view of an installation manner of a heat retention mechanism in the second embodiment of the present application.
Fig. 4 is a partial structural schematic view of the temperature keeping mechanism.
Description of reference numerals: 1. a body; 11. an air inlet pipe; 12. a cover body; 2. a support frame; 3. a piping mechanism; 31. an air outlet pipe; 32. a breather pipe; 33. a steam pipe; 4. an exhaust gas treatment mechanism; 41. a gas-collecting hood; 42. a communicating pipe; 43. an air exhaust pipe; 5. a heat preservation mechanism; 51. a first thermal insulation assembly; 52. a second heat-insulating component; 53. a half cover body; 531. opening the gap; 532. a connecting rod; 533. a protrusion; 54. a connecting assembly; 541. connecting sleeves; 5411. a through hole; 5412. a felt strip; 5413. and (4) connecting strips.
Detailed Description
The present application is described in further detail below with reference to figures 1-4.
The embodiment of the application discloses automatic make-up machine of heated board.
Example 1
Referring to fig. 1, the automatic forming machine comprises a machine body 1, a support frame 2 is arranged on the bottom surface of the machine body 1, a pipeline mechanism 3 for leading steam is arranged on the machine body 1, and a waste gas treatment mechanism 4 for collecting generated harmful gas is arranged on the upper side of the machine body 1.
The machine body 1 is in a square body with a hollow inner part, one side of the machine body 1 is provided with a cover body 12 which can be opened and closed, and two sides of the machine body 1 are respectively provided with two air inlet pipes 11 for introducing high-temperature steam. The pipeline mechanism 3 comprises a pipeline assembly, the pipeline assembly comprises two horizontal air outlet pipes 31, and the two air outlet pipes 31 are respectively arranged at the upper side and the lower side of the machine body 1. The air outlet pipe 31 extends vertically and is communicated with a plurality of vent pipes 32, the vent pipes 32 are arranged horizontally at equal intervals, each vent pipe 32 extends vertically downwards and is communicated with three steam pipes 33, the three steam pipes 33 are arranged at equal intervals, and the lower ends of the steam pipes 33 are communicated with the inner side of the machine body 1.
The exhaust gas treatment mechanism 4 includes a gas collecting hood 41 covering the upper side of the machine body 1, the upper side of the gas collecting hood 41 is communicated and provided with three communicating pipes 42 at equal intervals, the upper ends of the three communicating pipes 42 are connected with the same exhaust pipe 43, and the exhaust pipe 43 is connected with an air pump and the like (not shown here).
The implementation process of the embodiment 1 of the application is as follows:
when steam needs to be introduced into the inner side of the machine body 1, high-temperature steam is introduced into the machine body 1 through the air inlet pipe 11, the steam can be guided to multiple directions due to the fact that the steam pipes 33 are arranged, raw material particles are heated more uniformly, the cooled steam is discharged into the vent pipe 32 through the steam pipes 33, and the steam in the vent pipe 32 is discharged through the air outlet pipe 31;
while the particulate material is heated, the generated harmful gas is collected by the gas collecting hood 41 and discharged through the gas exhaust pipe 43.
Example 2
Referring to fig. 2, the present embodiment is different from embodiment 1 in that an air outlet pipe 31 is connected and communicated with a vent pipe 32, and a heat preservation mechanism 5 is disposed on a pipe assembly, where the heat preservation mechanism 5 is described as a pipe assembly located on an upper side of the machine body 1.
Referring to fig. 3, the heat-insulating mechanism 5 includes a first heat-insulating unit 51 fitted around the steam pipe 33 and the air pipe 32, and the first heat-insulating unit 51 is formed by engaging two half-covers 53, and the half-covers 53 have elasticity. The shape of the half cover bodies 53 is matched with each group of the steam pipes 33 and the ventilating pipes 32 which are connected, and after the two half cover bodies 53 are sleeved outside the steam pipes 33 and the ventilating pipes 32, the edges of the two half cover bodies 53 are attached.
And a gap 531 is arranged at the first heat-preservation component 51 at the joint of the air outlet pipe 31 and the vent pipe 32, so that the first heat-preservation component 51 can be conveniently installed.
The heat preservation mechanism 5 further comprises a second heat preservation component 52 sleeved outside the air outlet pipe 31, and the second heat preservation component 52 is composed of two half cover bodies 53 which are buckled with each other.
Referring to fig. 4, the steam pipe 33 is provided with two half cover bodies 53 fastened together and the air outlet pipe 31 is provided with a connecting assembly 54 on the outer side of each half cover body 53 fastened together, and the connecting assembly 54 connects the two half cover bodies 53 fastened together. The connecting assembly 54 includes an elastic connecting sleeve 541, the connecting sleeve 541 is rectangular after being unfolded, and the connecting sleeve 541 is bent and sleeved outside the half-cover 53.
A plurality of cylindrical connecting rods 532 are fixed on the outer side of the half cover body 53, a hemispherical protrusion 533 is fixed on one end of the connecting rod 532 far away from the half cover body 53, a through hole 5411 is arranged in a penetrating way of the connecting sleeve 541, and the inner diameter of the through hole 5411 is equal to the diameter of the connecting rod 532. Because the connection sleeve 541 has elasticity, the protrusion 533 is inserted into the through hole 5411 and protrudes out of the connection sleeve 541, so that the connection sleeve 541 and the half-cover 53 are firmly connected.
Of two connected edges of the connecting sleeve 541, a felt strip 5412 is fixed on the outer side of one edge, and a connecting strip 5413 is fixed on the inner side of the other edge. When two edges need to be joined, the felt strip 5412 is felted with the connecting strip 5413.
The implementation process of the embodiment 2 of the application is as follows:
when the cooled steam is discharged, the pipeline mechanism 3 is insulated by the heat insulation mechanism 5, so that the possibility that cooling water exists in the heat insulation mechanism 5 is reduced.
When the heat preservation mechanism 5 is installed, the two half cover bodies 53 which are matched with each other are sleeved on the outer sides of the steam pipe 33 and the air pipe 32, the connecting sleeve 541 is sleeved on the outer sides of the two half cover bodies 53, meanwhile, the protrusions 533 are inserted into the through holes 5411, and the connecting strip 5412 is felted with the connecting strip 5413, so that the connecting sleeve 541, the steam pipe 33 and the air pipe 32 are firmly connected;
meanwhile, the two half cover bodies 53 matched for use are sleeved on the outer side of the air outlet pipe 31, and the two half cover bodies 53 are firmly locked by the connecting component 54.
The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.
Claims (10)
1. The utility model provides an automatic make-up machine of heated board, includes organism (1), be equipped with the pipe assembly on organism (1), the pipe assembly is including locating outlet duct (31) of organism (1) one side, its characterized in that: the air outlet pipe (31) is communicated with a plurality of vent pipes (32), the vent pipes (32) are communicated with the interior of the machine body (1), and the vent pipes (32) are distributed on the upper surface and the lower surface of the machine body (1) at equal intervals.
2. The automated molding machine for insulation boards according to claim 1, wherein: each vent pipe (32) is communicated with a plurality of steam pipes (33), and the steam pipes (33) are communicated with the inside of the machine body (1).
3. The automated molding machine for insulation boards according to claim 1, wherein: the upper side of the machine body (1) is covered with a gas collecting hood (41), and the gas collecting hood (41) is communicated with an exhaust pipe (43).
4. The automated molding machine for insulation boards according to claim 3, wherein: a plurality of communicating pipes (42) are arranged on the upper side of the gas collecting hood (41) at equal intervals, and the communicating pipes (42) are communicated with an exhaust pipe (43).
5. The automated molding machine for insulation boards according to claim 1, wherein: the outer side of the pipeline component is provided with a heat preservation mechanism (5).
6. The automated molding machine for insulation boards according to claim 5, wherein: the heat preservation mechanism (5) comprises a first heat preservation assembly (51), the first heat preservation assembly (51) comprises two half cover bodies (53) which are buckled with each other, and the half cover bodies (53) are sleeved on the outer side of the steam pipe (33).
7. The automated molding machine for insulation boards according to claim 6, wherein: and the outer sides of the two half cover bodies (53) are sleeved with connecting components (54) for locking the two half cover bodies (53).
8. The automated molding machine for insulation boards according to claim 7, wherein: the connecting assembly (54) comprises a connecting sleeve (541) with elasticity, one edge of the connecting sleeve (541) is opened, and two edges of the connecting sleeve (541) close to the opening are felted.
9. The automated molding machine for insulation boards according to claim 8, wherein: the outer sides of the half cover bodies (53) are respectively fixed with a protrusion (533), the connecting sleeve (541) penetrates through a through hole (5411), and the protrusion (533) is spliced with the through hole (5411).
10. The automated molding machine for insulation boards according to claim 9, wherein: a connecting rod (532) is fixed between the bulge (533) and the first heat-preservation assembly (51), the diameter of the connecting rod (532) is equal to the inner diameter of the through hole (5411), the bulge (533) is hemispherical, and the diameter of the bulge (533) is larger than that of the connecting rod (532).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202023329937.3U CN214491286U (en) | 2020-12-30 | 2020-12-30 | Automatic forming machine for insulation board |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202023329937.3U CN214491286U (en) | 2020-12-30 | 2020-12-30 | Automatic forming machine for insulation board |
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Publication Number | Publication Date |
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CN214491286U true CN214491286U (en) | 2021-10-26 |
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CN202023329937.3U Active CN214491286U (en) | 2020-12-30 | 2020-12-30 | Automatic forming machine for insulation board |
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CN (1) | CN214491286U (en) |
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2020
- 2020-12-30 CN CN202023329937.3U patent/CN214491286U/en active Active
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