CN113524425A - Six-side pulp coating process of plastic efficient heat insulation product - Google Patents

Abstract

The invention discloses a six-bread paste process of a plastic high-efficiency heat insulation product, which comprises the following steps of 1: the high-efficient thermal-insulated insulation product of prefabricated plastic type wraps the layer board that thick liquid was used to set up on the layer board and treat the high-efficient thermal-insulated insulation product of plastic type corresponding package thick liquid recess, meanwhile locate at package thick liquid recess below and predetermine the refrigeration piece in layer board inside. Has the advantages that: according to the invention, the plastic high-efficiency heat-insulation product is positioned in advance in the slurry coating process, so that the slippage and dislocation of the plastic high-efficiency heat-insulation product in the six-surface slurry coating process are effectively avoided, the thickness of each bread slurry of the plastic high-efficiency heat-insulation product can meet the design requirement, and the slurry coating quality of the plastic high-efficiency heat-insulation product is improved; according to the invention, the refrigeration sheet is preset in the supporting plate for coating the slurry, so that the forming speed of the plastic high-efficiency heat-insulation and heat-preservation product after coating the slurry is effectively increased, and the six-surface slurry coating efficiency of the plastic high-efficiency heat-insulation and heat-preservation product is greatly improved.

Description

Six-side pulp coating process of plastic efficient heat insulation product

Technical Field

The invention relates to the technical field of plastic high-efficiency heat-insulation and heat-preservation product six-side coating pulp, in particular to a plastic high-efficiency heat-insulation and heat-preservation product six-side coating pulp process.

Background

When high-temperature protection is carried out on a mechanical product, a plastic high-efficiency heat insulation product is often required to be wound on the surface of the mechanical product, and in order to ensure the weather resistance of the plastic high-efficiency heat insulation product during preparation, six breading pastes are often required to be carried out on the plastic high-efficiency heat insulation product.

However, when six-side mortar is applied to a plastic high-efficiency heat-insulation product, the heat-insulation product is directly placed in a groove on a supporting plate after the mortar is pre-paved for a plurality of times, and the thickness of each side of the heat-insulation product in the mortar coating process is different due to the fact that the heat-insulation product cannot be accurately positioned after being placed, so that the mortar coating quality of the heat-insulation product is reduced, and meanwhile, the heat-insulation product is mainly formed by natural cooling after mortar coating, the forming speed is slow, and the mortar coating efficiency of the heat-insulation product is greatly reduced.

Disclosure of Invention

The invention aims to solve the problems and provide a six-side pulp coating process of a plastic high-efficiency heat insulation product.

The invention realizes the purpose through the following technical scheme:

a six-bread paste process of a plastic high-efficiency heat insulation product comprises the following steps:

step 1: prefabricating a supporting plate for coating the plastic efficient heat-insulation and heat-preservation product, forming a slurry coating groove corresponding to the to-be-molded efficient heat-insulation and heat-preservation product on the supporting plate, and meanwhile, presetting a refrigerating sheet at the position, below the slurry coating groove, in the supporting plate;

step 2: presetting a limiting contact pin in the middle of the slurry coating groove formed in the step 1, and enabling the needle point part of the limiting contact pin to be upward;

and step 3: placing the prefabricated support plate on a pulp coating platform, uniformly paving mortar on the support plate through a pulp coating machine on the pulp coating platform, and enabling the mortar to be incompletely immersed into the limiting contact pins;

and 4, step 4: placing a plastic high-efficiency heat-insulation product to be coated with mortar in a mortar coating groove on a supporting plate after mortar is pre-spread, uniformly pressing the plastic high-efficiency heat-insulation product in the mortar coating groove, and slightly inserting a limiting contact pin into the bottom end of the plastic high-efficiency heat-insulation product to limit the plastic high-efficiency heat-insulation product;

and 5: after the primary slurry coating is finished, mortar can be paved on the surface of the plastic efficient heat insulation product again through a slurry coating machine, and the mortar is evenly trowelled, so that the mortar can completely fill the gap between the plastic efficient heat insulation product and the slurry coating groove;

step 6: only need behind the package thick liquid with the refrigeration piece work in step 1, alright carry out quick cooling to the high-efficient thermal-insulated heat preservation product of plastic type behind the thick liquid in the layer board to the cooling rate of mortar accelerates, thereby the operation of six package thick liquids of the high-efficient thermal-insulated heat preservation product of completion plastic type.

Furthermore, the size of the pulp wrapping groove in the step 2 corresponds to the size of the pulp wrapped by the plastic efficient heat-insulation product, so that the pulp wrapping treatment is performed on the plastic efficient heat-insulation product.

Further, spacing contact pin setting in step 2 is at package thick liquid recess middle part to realize the location placed in the middle of the high-efficient thermal-insulated insulation product of plastic type when package thick liquid, effectively prevent the dislocation skew of the high-efficient thermal-insulated insulation product of plastic type when package thick liquid, guarantee the package thick liquid quality of product.

Further, step 4 and all adopt the pinch roller to paint the high-efficient heat preservation product that insulates against heat of plastic type after the mortar filling in step 5 and flatten, can ensure the normal package thick liquid of the high-efficient heat preservation product that insulates against heat of plastic type.

The invention has the beneficial effects that:

1. according to the invention, the plastic high-efficiency heat-insulation product is positioned in advance in the slurry coating process, so that the slippage and dislocation of the plastic high-efficiency heat-insulation product in the six-surface slurry coating process are effectively avoided, the thickness of each bread slurry of the plastic high-efficiency heat-insulation product can meet the design requirement, and the slurry coating quality of the plastic high-efficiency heat-insulation product is improved;

2. according to the invention, the refrigeration sheet is preset in the supporting plate for coating the slurry, so that the forming speed of the plastic high-efficiency heat-insulation and heat-preservation product after coating the slurry is effectively increased, and the six-surface slurry coating efficiency of the plastic high-efficiency heat-insulation and heat-preservation product is greatly improved.

Detailed Description

A six-bread paste process of a plastic high-efficiency heat insulation product comprises the following steps:

step 1: prefabricating a supporting plate for coating the plastic efficient heat-insulation and heat-preservation product, forming a slurry coating groove corresponding to the to-be-molded efficient heat-insulation and heat-preservation product on the supporting plate, and meanwhile, presetting a refrigerating sheet at the position, below the slurry coating groove, in the supporting plate;

step 2: presetting a limiting contact pin in the middle of the slurry coating groove formed in the step 1, and enabling the needle point part of the limiting contact pin to be upward;

and step 3: placing the prefabricated support plate on a pulp coating platform, uniformly paving mortar on the support plate through a pulp coating machine on the pulp coating platform, and enabling the mortar to be incompletely immersed into the limiting contact pins;

and 4, step 4: placing a plastic high-efficiency heat-insulation product to be coated with mortar in a mortar coating groove on a supporting plate after mortar is pre-spread, uniformly pressing the plastic high-efficiency heat-insulation product in the mortar coating groove, and slightly inserting a limiting contact pin into the bottom end of the plastic high-efficiency heat-insulation product to limit the plastic high-efficiency heat-insulation product;

and 5: after the primary slurry coating is finished, mortar can be paved on the surface of the plastic efficient heat insulation product again through a slurry coating machine, and the mortar is evenly trowelled, so that the mortar can completely fill the gap between the plastic efficient heat insulation product and the slurry coating groove;

step 6: only need behind the package thick liquid with the refrigeration piece work in step 1, alright carry out quick cooling to the high-efficient thermal-insulated heat preservation product of plastic type behind the thick liquid in the layer board to the cooling rate of mortar accelerates, thereby the operation of six package thick liquids of the high-efficient thermal-insulated heat preservation product of completion plastic type.

In this embodiment, the size of the slurry coating groove in step 2 corresponds to the size of the slurry coated plastic efficient heat insulation product, so as to facilitate slurry coating treatment of the plastic efficient heat insulation product.

In this embodiment, spacing contact pin setting in step 2 is at package thick liquid recess middle part to realize the location placed in the middle of the high-efficient thermal-insulated insulation product of plastic type when package thick liquid, effectively prevent the dislocation skew of the high-efficient thermal-insulated insulation product of plastic type when package thick liquid, guarantee the package thick liquid quality of product.

In this embodiment, step 4 and all adopt the pinch roller to paint the high-efficient thermal-insulated heat preservation product of plastic type after the mortar filling in step 5 and flatten, can ensure the normal package thick liquid of the high-efficient thermal-insulated heat preservation product of plastic type.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (4)

1. The utility model provides a six package thick liquid technologies of high-efficient thermal-insulated heat preservation product of plastic which characterized in that: it comprises the following steps:

step 1: prefabricating a supporting plate for coating the plastic efficient heat-insulation and heat-preservation product, forming a slurry coating groove corresponding to the to-be-molded efficient heat-insulation and heat-preservation product on the supporting plate, and meanwhile, presetting a refrigerating sheet at the position, below the slurry coating groove, in the supporting plate;

step 2: presetting a limiting contact pin in the middle of the slurry coating groove formed in the step 1, and enabling the needle point part of the limiting contact pin to be upward;

and step 3: placing the prefabricated support plate on a pulp coating platform, uniformly paving mortar on the support plate through a pulp coating machine on the pulp coating platform, and enabling the mortar to be incompletely immersed into the limiting contact pins;

and 4, step 4: placing a plastic high-efficiency heat-insulation product to be coated with mortar in a mortar coating groove on a supporting plate after mortar is pre-spread, uniformly pressing the plastic high-efficiency heat-insulation product in the mortar coating groove, and slightly inserting a limiting contact pin into the bottom end of the plastic high-efficiency heat-insulation product to limit the plastic high-efficiency heat-insulation product;

and 5: after the primary slurry coating is finished, mortar can be paved on the surface of the plastic efficient heat insulation product again through a slurry coating machine, and the mortar is evenly trowelled, so that the mortar can completely fill the gap between the plastic efficient heat insulation product and the slurry coating groove;

step 6: only need behind the package thick liquid with the refrigeration piece work in step 1, alright carry out quick cooling to the high-efficient thermal-insulated heat preservation product of plastic type behind the thick liquid in the layer board to the cooling rate of mortar accelerates, thereby the operation of six package thick liquids of the high-efficient thermal-insulated heat preservation product of completion plastic type.

2. The six-side pulp coating process of the plastic high-efficiency heat insulation product according to claim 1, characterized in that: and (3) the size of the pulp coating groove in the step (2) corresponds to the size of the plastic high-efficiency heat-insulation heat-preservation product after pulp coating.

3. The six-side pulp coating process of the plastic high-efficiency heat insulation product according to claim 1, characterized in that: and the limiting contact pin in the step 2 is arranged in the middle of the pulp coating groove so as to realize centering positioning of the plastic high-efficiency heat-insulation and heat-preservation product during pulp coating.

4. The six-side pulp coating process of the plastic high-efficiency heat insulation product according to claim 1, characterized in that: and (5) smearing and flattening the plastic high-efficiency heat-insulation product by using a compression roller after mortar is filled in the step (4) and the step (5).