CN113681929A - Assembled floor heating module and preparation method thereof - Google Patents

Abstract

The invention discloses an assembled floor heating module, wherein the heat-insulating substrate is made of expansion type heat-insulating plates such as a high compression resistance XPS extruded sheet, a polyurethane sheet, an EPS polyphenyl board and the like, after the aluminum foil is molded by a die and is bonded with the heat-insulating substrate, then cutting out the arc aluminum foil single piece matched with the arc groove by an aluminum foil cutting machine, pressing the arc aluminum foil single piece by an arc groove primary and secondary die pressing machine, and bonding the arc aluminum foil single piece with the matched arc groove, thereby better connecting with the heat preservation substrate and the aluminum foil above the heat preservation substrate by the reserved outer edge, thereby effectively improving the uniform heat dissipation effect of the ground, effectively reducing the heat loss, being more environment-friendly and energy-saving, by adopting the process, the floor heating module only needs to use a high-strength cement fiberboard with the thickness of 1 cm as a heat storage layer, or the floor tile thin-pasting process is directly used, so that the thickness of the floor heating layer can be greatly reduced, and the weight of the building can be effectively reduced.

Description

Assembled floor heating module and preparation method thereof

Technical Field

The invention relates to the technical field of floor heating module preparation, in particular to an assembled floor heating module and a preparation method thereof.

Background

The floor heating is short for floor radiation heating, the whole floor is used as a radiator, the whole floor is uniformly heated through a heating medium in a floor radiation layer, heat is supplied to the indoor through the floor in a radiation and convection heat transfer mode, the purpose of comfortable heating is achieved, the floor heating module is short for a prefabricated groove dry type floor heating module, an integrated floor heating plate block which is used for fixing and protecting a heating pipe through a groove of the heat insulation plate and can heat uniformly is used as an important uniform heating radiation tail end of a floor heating system and is used for replacing auxiliary materials such as the heat insulation plate, a reflection film and a staple bolt in the traditional floor heating system, the floor heating module can greatly simplify the floor heating installation procedure, the floor heating thickness is reduced, downward heat transfer loss is reduced, and the floor heating is more energy-saving.

However, the existing floor heating module has certain defects, the elbow part of a floor heating pipe of the existing floor heating module in the aluminum foil covering process is in the groove, the aluminum foil cannot completely wrap the existing floor heating module, the heat storage and continuous heat preservation balanced heat dissipation capacity range of the floor heating module is limited, the existing floor heating module is poor in heat insulation and heat preservation performance, the product can be heated quickly and cooled quickly, the traditional floor heating pea gravel concrete returns to and needs 5-7 cm, the thickness of the floor heating layer is greatly increased, the weight of a building is improved, and therefore the assembled floor heating module and the manufacturing method thereof are provided.

Disclosure of Invention

The invention aims to provide an assembled floor heating module and a preparation method thereof, and aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the assembled floor heating module is characterized in that the heat preservation substrate is made of high-compression-resistance XPS extruded sheets, polyurethane plates or EPS polyphenyl plates and other expansion type heat preservation plates.

The preparation method of the assembled floor heating module comprises the following steps:

s1, carving a straight groove or an arc groove matched with the floor heating pipe on the heat insulation substrate by using a numerical control carving machine according to the specification requirement of a purchased square pipe;

s2, cleaning broken particles on the surface of the heat-insulating substrate provided with the straight groove or the arc-shaped groove in real time through the integrated automatic dust collection bed when the numerical control engraving machine is used for engraving in S1;

s3, using a straight-groove primary-secondary mold molding press and an arc-shaped-groove primary-secondary mold molding press to mold and mold an aluminum foil and the heat preservation substrate, wherein the aluminum foil of the mold is matched with the heat preservation substrate and the straight groove or the arc-shaped groove carved on the heat preservation substrate in size;

s4, cutting the aluminum foil into adaptive arc-shaped aluminum foil single pieces according to the radian of the arc-shaped grooves by using an aluminum foil cutting machine, and pressing and molding the arc-shaped aluminum foil single pieces and the arc-shaped grooves on the heat-insulating substrate by using an arc-shaped groove primary-secondary mold press molding machine;

s5, respectively spraying environment-friendly bonding glue on the straight groove heat-insulation substrate and the arc groove heat-insulation substrate by using a glue spraying and molding machine, bonding the carved straight groove heat-insulation substrate with a straight groove aluminum foil formed by a molding die, bonding the compacted arc groove aluminum foil on the arc groove heat-insulation substrate after spraying the glue, covering and cutting the arc groove heat-insulation substrate into arc aluminum foil single pieces, and performing molding die and bonding again;

and S6, finally, removing and flattening the plane aluminum foils in the straight grooves and the arc grooves, and exposing the arc grooves on the heat-insulating substrate, thereby completing production, acceptance and warehousing.

Preferably, in S1, the depth of the groove engraved by the numerical control engraving machine is greater than or equal to the diameter of the ground heating pipe, and the depth of the groove is greater than or equal to the diameter of the ground heating pipe, so as to meet the requirements of house design and the paving of the surface layer.

Preferably, in S3, the aluminum foil is compression-molded to have a thickness of 0.01 to 3 mm, and the thickness of the aluminum foil is controlled to be between 0.01 to 3 mm, so that it can be better matched with construction requirements, thereby satisfying thermal conductivity.

Preferably, in S4, the width of the cut arc-shaped aluminum foil is 2 to 4 cm greater than that of the arc-shaped groove, the arc-shaped groove is divided into two arc-shaped grooves and a single arc-shaped groove, and two sides of the single arc-shaped groove are respectively provided with 1 to 2 cm horizontal edges to be attached to the plane of the heat-insulating substrate, and the aluminum foil edges of 2 to 4 cm reserved in the arc-shaped groove are connected with the aluminum foils on the heat-insulating substrates for better realization, so as to achieve better heat dissipation effect, and the aluminum foil edges of 1 to 2 cm set through the single arc-shaped groove act on the aluminum foil on the plane of the heat-insulating substrate, so as to form effective lap joint, so that the prefabricated single aluminum foil groove and the aluminum foil on the plane of the heat-insulating substrate become a whole.

Compared with the prior art, the invention has the beneficial effects that: according to the invention, after the aluminum foil is formed by the aluminum foil die and is bonded with the heat-insulation substrate, the aluminum foil is cut into the arc-shaped aluminum foil single sheets matched with the arc-shaped grooves by the aluminum foil cutting machine, the arc-shaped aluminum foil single sheets are die-molded by the arc-shaped groove primary and secondary die molding machine and are bonded with the matched arc-shaped wire grooves, so that the aluminum foil is better connected with the heat-insulation substrate and the aluminum foil above the heat-insulation substrate by virtue of the reserved outer edges, the uniform heat dissipation effect of the ground can be effectively improved, the heat loss is effectively reduced, the environment is more protected, the energy is saved, and by using the process, only a high-strength cement fiber board with the thickness of 1 cm is used as a heat storage layer on the floor heating module, or a floor tile thin-pasting process is directly used, so that the thickness of the floor heating module can be greatly reduced, and the building weight can be effectively reduced.

Drawings

FIG. 1 is a product structure in the present invention;

FIG. 2 is an overall process flow diagram of the present invention;

fig. 3 is a flow chart of compression molding of aluminum foil in the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Examples

Referring to fig. 1-3, the present invention provides a technical solution: the assembled floor heating module is characterized in that the heat insulation base plate is made of high-compression-resistance XPS extruded sheets, polyurethane plates or EPS polyphenyl plates and other expansion type heat insulation plates.

The preparation method of the assembled floor heating module comprises the following steps:

s1, carving a straight groove or an arc groove matched with the floor heating pipe on the heat insulation substrate by using a numerical control carving machine according to the specification requirement of a purchased square pipe;

s2, cleaning broken particles on the surface of the heat-insulating substrate provided with the straight groove or the arc-shaped groove in real time through the integrated automatic dust collection bed when the numerical control engraving machine is used for engraving in S1;

s3, using a straight-groove primary-secondary mold molding press and an arc-shaped-groove primary-secondary mold molding press to mold and mold an aluminum foil and the heat preservation substrate, wherein the aluminum foil of the mold is matched with the heat preservation substrate and the straight groove or the arc-shaped groove carved on the heat preservation substrate in size;

s4, cutting the aluminum foil into adaptive arc-shaped aluminum foil single pieces according to the radian of the arc-shaped grooves by using an aluminum foil cutting machine, and pressing and molding the arc-shaped aluminum foil single pieces and the arc-shaped grooves on the heat-insulating substrate by using an arc-shaped groove primary-secondary mold press molding machine;

s5, respectively spraying environment-friendly bonding glue on the straight groove heat-insulation substrate and the arc groove heat-insulation substrate by using a glue spraying and molding machine, bonding the carved straight groove heat-insulation substrate with a straight groove aluminum foil formed by a molding die, bonding the compacted arc groove aluminum foil on the arc groove heat-insulation substrate after spraying the glue, covering and cutting the arc groove heat-insulation substrate into arc aluminum foil single pieces, and performing molding die and bonding again;

and S6, finally, removing and flattening the plane aluminum foils in the straight grooves and the arc grooves, and exposing the arc grooves on the heat-insulating substrate, thereby completing production, acceptance and warehousing.

In one embodiment, in S1, the depth of the groove engraved by the numerical control engraving machine is greater than or equal to the diameter of the ground heating pipe, and the depth of the groove is set to be greater than or equal to the diameter of the ground heating pipe, so as to meet the requirements of house design and pavement of the surface layer.

In one embodiment, the aluminum foil is compression-molded to have a thickness of 0.01 to 3 mm at S3, and the thickness of the aluminum foil is controlled to be between 0.01 to 3 mm, so that it can be better matched with construction requirements, thereby satisfying thermal conductivity.

In one embodiment, in S4, the width of the cut arc-shaped aluminum foil is greater than the width of the arc-shaped groove by 2 to 4 cm, the arc-shaped groove is divided into two arc-shaped grooves and a single arc-shaped groove, and two sides of the single arc-shaped groove are respectively provided with a 1 to 2 cm horizontal edge to be attached to the plane of the thermal insulation substrate, and the aluminum foil edge reserved in the arc-shaped groove by 2 to 4 cm is connected to the aluminum foil on each thermal insulation substrate for better realization, so as to achieve better heat dissipation effect, and the aluminum foil edge set by the single arc-shaped groove by 1 to 2 cm acts on the aluminum foil on the plane of the thermal insulation substrate, so as to form effective lap joint, so that the prefabricated single groove aluminum foil and the aluminum foil on the plane of the thermal insulation substrate become a whole.

Working principle or structural principle: the worker firstly carves a straight groove and an arc groove which are matched with the ground heating pipe on the heat preservation substrate by using a numerical control carving machine according to the side length and the pipe spacing of the purchased square pipe, and when the carving is carried out by the numerical control carving machine, the broken particles on the surface of the heat preservation substrate provided with the straight groove or the arc groove are cleaned in real time by an integrated automatic dust absorption bed so as to meet the requirement of spraying adhesive glue, the aluminum foil is molded by using a straight groove master-slave mold press machine and an arc groove master-slave mold press machine, the specification model of the mold is matched with the straight groove and the arc groove which are arranged on the heat preservation substrate, the arc aluminum foil single piece which are matched with each other is cut by the arc groove radian through an aluminum foil cutting machine according to the specification model of the arc groove substrate, the arc aluminum foil single piece is molded by using the arc groove master-slave mold press machine, and the arc aluminum foil single piece is molded again, and spraying environment-friendly bonding glue on the heat-insulating substrate by using a glue spraying molding press, bonding the straight groove substrate with a straight groove aluminum foil formed by a pressing mold, bonding a compacted arc groove aluminum foil on the arc groove substrate after spraying the glue, covering and cutting the surface of the substrate into arc aluminum foil single sheets, pressing and bonding for the second time, and finally removing and flattening the plane aluminum foil at the groove to expose the arc groove carved on the substrate, thereby completing production, acceptance and warehousing.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. Module warms up assembled, its characterized in that: the high-pressure-resistant heat-insulation board comprises a heat-insulation base board, wherein the heat-insulation base board is made of high-pressure-resistant XPS extruded sheets, polyurethane boards, EPS polyphenyl boards and other expansion type heat-insulation boards.

2. The preparation method of the assembled floor heating module is characterized by comprising the following steps:

s1, carving a straight groove or an arc groove matched with the floor heating pipe on the heat insulation substrate by using a numerical control carving machine according to the specification requirement of a purchased square pipe;

s2, cleaning broken particles on the surface of the heat-insulating substrate provided with the straight groove or the arc-shaped groove in real time through the integrated automatic dust collection bed when the numerical control engraving machine is used for engraving in S1;

s3, using a straight-groove primary-secondary mold molding press and an arc-shaped-groove primary-secondary mold molding press to mold and mold an aluminum foil and the heat preservation substrate, wherein the aluminum foil of the mold is matched with the heat preservation substrate and the straight groove or the arc-shaped groove carved on the heat preservation substrate in size;

s4, cutting the aluminum foil into adaptive arc-shaped aluminum foil single pieces according to the radian of the arc-shaped grooves by using an aluminum foil cutting machine, and pressing and molding the arc-shaped aluminum foil single pieces and the arc-shaped grooves on the heat-insulating substrate by using an arc-shaped groove primary-secondary mold press molding machine;

s5, respectively spraying environment-friendly bonding glue on the straight groove heat-insulation substrate and the arc groove heat-insulation substrate by using a glue spraying and molding machine, bonding the carved straight groove heat-insulation substrate with a straight groove aluminum foil formed by a molding die, bonding the compacted arc groove aluminum foil on the arc groove heat-insulation substrate after spraying the glue, covering and cutting the arc groove heat-insulation substrate into arc aluminum foil single pieces, and performing molding die and bonding again;

and S6, finally, removing and flattening the plane aluminum foils in the straight grooves and the arc grooves, and exposing the arc grooves on the heat-insulating substrate, thereby completing production, acceptance and warehousing.

3. The manufacturing method of the assembled floor heating module according to claim 2, characterized in that: in S1, the depth of the groove engraved by the numerical control engraving machine needs to be greater than or equal to the diameter of the ground heating pipe.

4. The manufacturing method of the assembled floor heating module according to claim 2, characterized in that: in the S3, the aluminum foil is compression-molded with a thickness of 0.01 to 3 mm.

5. The manufacturing method of the assembled floor heating module according to claim 2, characterized in that: and S4, the width of the cut arc aluminum foil is 2-4 cm larger than that of the arc groove, the arc groove is divided into an arc double groove and an arc single groove, and the two sides of the arc single groove are respectively provided with 1-2 cm horizontal edges to be attached to the plane of the heat preservation substrate.

Images