CN215515261U - Transmission mechanism of nanometer heat-insulating shield production line - Google Patents

Abstract

The utility model discloses a transmission mechanism of a nano heat insulation plate production line, which structurally comprises a transmission frame formed by arranging and combining a plurality of transmission roller ways side by side, wherein a transmission gap is formed between the plurality of transmission roller ways, the width of the transmission gap is smaller than the length of a nano heat insulation plate, an exhaust pipe is arranged on the transmission gap, a plurality of exhaust holes are uniformly distributed on the exhaust pipe and are lower than the transmission roller ways, the end part of the exhaust pipe is communicated with a negative pressure piece, a closed box body sealed above the transmission roller ways is arranged on the transmission frame, a cleaning piece for cleaning the surface of the nano heat insulation plate is arranged on the closed box body, and the front surface of the exhaust holes faces the cleaning piece.

Description

Transmission mechanism of nanometer heat-insulating shield production line

The technical field is as follows:

the utility model relates to the technical field of production of nano heat insulation plates, in particular to a transmission mechanism of a nano heat insulation plate production line.

Background art:

at present, the nanometer heat insulation plate needs to be pressed, formed, cut, packaged and the like in the production process, in the production steps, the transmission of the nanometer heat insulation plate is mostly completed by the transmission of a conveying belt, however, more dust exists on the surface of the nanometer heat insulation plate which is just pressed and formed, when the nanometer heat insulation plate enters the conveying belt to be transmitted, the dust can be diffused outwards, the packaging of the nanometer heat insulation plate is completed by the expansion and contraction of plastic products, the dust attached to the surface of the nanometer heat insulation plate can cause the poor smoothness of the packaging surface of the nanometer heat insulation plate, secondly, more heat can exist in the nanometer heat insulation plate which is pressed and formed, the hot air is stuck on the conveying belt to be transmitted, the hot air is blocked by the conveying plate downwards, the hot air can not be discharged timely, and the product quality of the produced nanometer heat insulation plate is not high, the nano heat insulation plate is easy to break and is not firm, and the heat insulation performance of the nano heat insulation plate is reduced.

The utility model has the following contents:

the utility model aims to provide a transmission mechanism of a nano heat insulation plate production line, which solves one or more of the problems in the prior art.

In order to solve the technical problem, the utility model provides a transmission mechanism of a nano heat insulation plate production line, which structurally comprises a conveying frame formed by arranging and combining a plurality of conveying roller ways side by side, and has the innovation points that: a conveying gap is formed between the plurality of conveying roller ways, the width of the conveying gap is smaller than the length of the nano heat insulation plate, an exhaust pipe is arranged on the conveying gap, a plurality of exhaust holes are uniformly distributed on the exhaust pipe, the height of the exhaust holes is lower than that of the conveying roller ways, and the end part of the exhaust pipe is communicated with a negative pressing piece;

the conveying frame is provided with a closed box body sealed above the conveying roller way, the closed box body is provided with a cleaning piece for cleaning the surface of the nanometer heat insulation plate, and the front surface of the exhaust hole faces the cleaning piece.

Furthermore, the negative pressure part comprises an air pump and a bag type dust collector, the interior of the exhaust pipe is communicated with the air exhaust end of the air pump through a pipeline, the exhaust pipes are communicated on the same pipeline, and the air outlet ends of the bag type dust collector and the air pump are communicated.

Furthermore, the two ends of the closed box body are respectively provided with an inlet and an outlet of the nano heat insulation plate, and the plurality of exhaust pipes are positioned between the inlet and the outlet.

Furthermore, the cleaning piece comprises a plurality of rotating roller ways which are rotatably arranged in the closed box body and driving pieces which drive the rotating roller ways to rotate, the rotating roller ways are sleeved with the soft hairbrushes, the soft hairbrushes are close to the conveying roller ways, and the driving pieces drive the rotating direction of the rotating roller ways to be consistent with the conveying direction of the conveying roller ways.

Furthermore, the driving piece comprises a rotating motor and a transmission chain, the rotating motor and the transmission chain are arranged on the closed box body, a rotating gear is arranged at the end of the rotating roller way, a driving gear is arranged on the rotating motor, and the transmission chain is sequentially connected to the rotating gear and the driving gear in a tensioning mode.

The utility model has the beneficial effects that:

1. the utility model provides a transmission mechanism of a nanometer heat insulation plate production line, wherein a cleaning piece cleans the surface of a nanometer heat insulation plate in the conveying process of the nanometer heat insulation plate on a conveying roller way to achieve the purpose of cleaning dust on the surface of the nanometer heat insulation plate, secondly, a negative pressure piece enables the interior of an exhaust pipe to generate negative pressure, when the nanometer heat insulation plate passes through a conveying gap, the cleaned dust on the surface of the nanometer heat insulation plate and the dust on the bottom plane of the nanometer heat insulation plate are sucked into the interior of the exhaust pipe through the negative pressure effect of an exhaust hole, the dust in the interior of the exhaust pipe is sucked into the interior of the negative pressure piece, the adhesion of the dust on the upper surface and the lower surface of the nanometer heat insulation plate is reduced, and the smoothness of the package of the upper surface and the lower surface of the subsequent nanometer heat insulation plate is further ensured.

2. When the nano heat insulation plate is conveyed to the position of the conveying gap, negative pressure generated by the exhaust pipe can absorb dust and can also act on heat of the bottom plane of the nano heat insulation plate, so that the heat generated in the process of firing the nano heat insulation plate can be thoroughly discharged, and the forming quality of the nano heat insulation plate is improved.

3. The utility model provides a transmission mechanism of a nano heat insulation plate production line, wherein a soft brush is used for cleaning the surface of a nano heat insulation plate by the rotation of a rotating roller way, the soft brush is made of a PE wire brush which is made of a soft material, so that the damage to the surface of the nano heat insulation plate is avoided, and the rotation direction of the rotating roller way is consistent with the direction of a conveying roller way, so that the transmission of the nano heat insulation plate can be promoted to a certain extent, and the transmission smoothness of the nano heat insulation plate is further ensured.

Description of the drawings:

FIG. 1 is a cross-sectional view of the top of the present invention.

FIG. 2 is a schematic side view of the present invention.

The specific implementation mode is as follows:

for the purpose of enhancing the understanding of the present invention, the present invention will be further described in detail with reference to the following examples and the accompanying drawings, which are only used for explaining the present invention and are not to be construed as limiting the scope of the present invention.

As shown in fig. 1 to 2, an embodiment of the present invention includes a conveying frame 101 formed by arranging and combining a plurality of conveying roller ways 1 side by side, a conveying gap 100 is formed between the plurality of conveying roller ways 1, the width of the conveying gap 100 is smaller than the length of the nano heat insulation plate, an exhaust pipe 2 is disposed on the conveying gap 100, a plurality of exhaust holes 21 are uniformly distributed on the exhaust pipe 2 and are lower than the conveying roller ways 1 in height, and an end of the exhaust pipe 2 is communicated with a negative pressure member 3;

the conveying frame 101 is provided with a closed box body 4 which is closed above the conveying roller way 1, the closed box body 4 is provided with a cleaning piece 5 for cleaning the surface of the nanometer heat insulation plate, and the front surface of the exhaust hole 21 faces the cleaning piece 5.

In the utility model, in the process of conveying the nano heat-insulating plate on the conveying roller way 1, the cleaning piece 5 cleans the surface of the nano heat-insulating plate to achieve the purpose of cleaning dust on the surface of the nano heat-insulating plate, and secondly, the negative pressure piece 3 enables the interior of the exhaust pipe 2 to generate negative pressure, when the nano heat-insulating plate passes through the position of the conveying gap 100, the dust cleaned on the surface of the nano heat-insulating plate and the dust on the bottom plane of the nano heat-insulating plate are sucked into the exhaust pipe 2 through the negative pressure effect at the position of the exhaust hole 21, and the dust inside the exhaust pipe 2 is sucked into the interior of the negative pressure piece 3 to achieve the purpose of reducing the adhesion of the dust on the upper surface and the lower surface of the nano heat-insulating plate, thereby ensuring the smoothness of the package of the upper surface and the lower surface of the subsequent nano heat-insulating plate.

In the present invention, when the nano-insulation panel is transferred to the position of the transfer gap 100, the negative pressure generated by the exhaust pipe 2 can absorb dust and also can act on the heat of the bottom plane of the nano-insulation panel, so that the heat generated during the firing process of the nano-insulation panel can be completely exhausted, thereby improving the molding quality of the nano-insulation panel.

In the present invention, as a preferable mode, the negative pressure member 3 has a specific structure as follows: the negative pressure part 3 comprises an air suction pump 31 and a bag type dust collector 32, the insides of the exhaust pipes 2 are communicated with the air suction end of the air suction pump 31 through a pipeline 200, the exhaust pipes 2 are communicated on the same pipeline 200, the bag type dust collector 32 is communicated with the air outlet end of the air suction pump 31, negative pressure is generated inside the exhaust pipes 2 under the action of the air suction pump 31, and then dust inside the exhaust pipes 2 is discharged from the air outlet end of the air suction pump 31 and collected through the bag type dust collector 32.

In the present invention, the specific structure of the closed casing 4 is preferably as follows: the two ends of the closed box body 4 are respectively provided with an inlet 102 and an outlet 103 of the nano heat insulation plate, the exhaust pipes 2 are positioned between the inlet 102 and the outlet 103, the negative pressure generated by the exhaust holes 21 is always positioned inside the closed box body 4 due to the setting of the positions of the exhaust pipes 2, and the dust removal efficiency of the exhaust pipes 2 on the upper surface and the lower surface of the nano heat insulation plate is ensured.

In the present invention, the cleaning implement 5 preferably has the following specific structure: the cleaning piece 5 comprises a plurality of rotating roller ways 51 rotatably arranged in the closed box body 4 and a driving piece 6 for driving the rotating roller ways 51 to rotate, the rotating roller ways 51 are sleeved with a soft brush 511, the soft brush 511 is close to the conveying roller ways 1, the driving piece 6 drives the rotating roller ways 51 to rotate in the same direction as the conveying direction of the conveying roller ways 1, when the cleaning piece 5 removes dust on the surfaces of the nano insulation boards, the driving piece 6 drives the rotating roller ways 51 to rotate in the same direction as the conveying direction of the conveying roller ways 1, the soft brush 511 cleans the surfaces of the nano insulation boards by the rotation of the rotating roller ways 51, the soft brush 511 selects a PE filament brush, the material is soft, the damage to the surfaces of the nano insulation boards is avoided, and then the rotating roller ways 51 are in the same direction as the conveying roller ways 1, so that a certain promotion effect on the conveying of the nano insulation boards can be achieved, thereby ensuring the smoothness of the transmission of the nano heat insulation plate.

In the present invention, the specific structure of the driving member 6 is preferably as follows: the driving member 6 includes a rotating motor 61 and a transmission chain 62 disposed on the closed box 4, the end of the rotating roller way 51 is provided with a rotating gear 512, the rotating motor 61 is provided with a driving gear 611, the transmission chain 62 is sequentially connected to the rotating gear 512 and the driving gear 611 in a tensioning manner, when the rotating roller way 51 rotates, the rotating motor 61 is used as power to drive the driving gear 611 to rotate and enable the rotating gear 512 to rotate through the transmission of the transmission chain 62, and then the rotating roller way 51 is driven to rotate.

It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides a transmission device of nanometer insulation board production line, its structure includes by a plurality of conveying roller way (1) side by side arrange the transport frame (101) of combination, its characterized in that: a conveying gap (100) is formed between the conveying roller ways (1), the width of the conveying gap (100) is smaller than the length of the nano heat insulation plate, an exhaust pipe (2) is arranged on the conveying gap (100), a plurality of exhaust holes (21) are uniformly distributed on the exhaust pipe (2) and are lower than the conveying roller ways (1), and the end part of the exhaust pipe (2) is communicated with a negative pressing piece (3);

the conveying frame (101) is provided with a closed box body (4) which is closed above the conveying roller way (1), the closed box body (4) is provided with a cleaning piece (5) for cleaning the surface of the nanometer heat insulation plate, and the exhaust hole (21) faces the cleaning piece (5).

2. The transmission mechanism of the nano insulation board production line according to claim 1, wherein: the negative compression piece (3) comprises an air suction pump (31) and a bag type dust collector (32), the interior of the exhaust pipe (2) is communicated with the air suction end of the air suction pump (31) through a pipeline (200), the exhaust pipes (2) are communicated on the same pipeline (200), and the air outlet end of the bag type dust collector (32) is communicated with the air outlet end of the air suction pump (31).

3. The transmission mechanism of the nano insulation board production line according to claim 1, wherein: the two ends of the closed box body (4) are respectively provided with an inlet (102) and an outlet (103) of the nanometer heat insulation plate, and the exhaust pipes (2) are located between the inlet (102) and the outlet (103).

4. The transmission mechanism of the nano insulation board production line according to claim 3, wherein: cleaning piece (5) include that a plurality of rotations set up sealed box (4) inside rotation roll table (51) and drive rotate roll table (51) and carry out pivoted driving piece (6), it is equipped with pappus brush (511) to rotate roll table (51) cover, pappus brush (511) are near conveying roll table (1), driving piece (6) drive rotate the direction of rotation of roll table (51) with the direction of transfer of conveying roll table (1) is unanimous.

5. The transmission mechanism of the nano insulation board production line according to claim 4, wherein: the driving piece (6) comprises a rotating motor (61) and a transmission chain (62), the rotating motor (61) and the transmission chain (62) are arranged on the closed box body (4), a rotating gear (512) is arranged at the end of the rotating roller way (51), a driving gear (611) is arranged on the rotating motor (61), and the transmission chain (62) is sequentially connected with the rotating gear (512) and the driving gear (611) in a tensioning mode.

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