CN211691273U - Heating floor structure - Google Patents

Abstract

The utility model relates to a heating floor structure, which is characterized in that the heating floor structure comprises a metal bottom plate, a graphene heating film, a decoration panel, a front sealing plate and a rear sealing plate, wherein the left end and the right end of the metal bottom plate are respectively provided with a male buckle and a female buckle, the metal bottom plate is provided with a threading hole which vertically runs through, and a lead is arranged in the threading hole; metal soleplate, graphite alkene heating film, decoration panel stack gradually and set up together to make wire and graphite alkene heating film be connected mutually, preceding shrouding subsides are covered on the front surface of decoration panel, and make preceding shrouding lid arrange metal soleplate's front surface in on, back shrouding subsides are covered on the rear surface of decoration panel, and make back shrouding lid arrange metal soleplate's rear surface in on. The utility model can realize the positioning between the adjacent heating floor structures through the male buckle and the female buckle when laying, which can improve the laying efficiency of the heating floor structures; and when a certain heating floor structure breaks down, the maintenance can be realized more quickly, which is beneficial to reducing the maintenance cost of users.

Description

Heating floor structure

Technical Field

The utility model relates to a floor field, especially a floor structure generates heat.

Background

At present, floor heating is paved in a plurality of houses. Wherein, current ground heating is realized heating ground mostly through burying hot-water line underground.

When laying floor heating, firstly laying a heat insulation layer on the ground; then laying a reflecting film on the heat-insulating layer; then laying a hot water pipe on the reflecting film; then paving cement mortar on the ground, embedding the hot water pipe in the cement mortar, and leveling the ground; and finally, paving a floor on the cement mortar, so that the floor heating can be paved. The process is very complicated, so the floor heating laying efficiency is very low.

Because, the hot water pipe is buried under the ground. When the hot water pipe is damaged, the hot water pipe can be maintained only by prying the floor and breaking the solidified cement mortar; and after the hot water pipe is repaired, cement mortar is required to be refilled and the floor is required to be paved again. The maintenance process is very complicated, which undoubtedly increases the maintenance difficulty of the hot water pipe, thereby easily causing the increase of the maintenance cost of the user.

Therefore, it is necessary to design a heat generating floor structure.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems and the defects, and provides a heating floor structure which can quickly realize the positioning between the adjacent heating floor structures through a male buckle and a female buckle when the heating floor structure is laid, so that the laying efficiency of the heating floor structure can be improved; and when a certain heating floor structure breaks down, the maintenance can be realized more quickly, which is beneficial to reducing the maintenance cost of users.

The technical scheme of the utility model is realized like this:

a heating floor structure is characterized by comprising a metal bottom plate, a graphene heating film, a decoration panel, a front sealing plate and a rear sealing plate, wherein a male buckle and a female buckle which are matched with each other are respectively arranged at the left end and the right end of the metal bottom plate, a threading hole which vertically penetrates through the metal bottom plate is formed in the metal bottom plate, and a lead is arranged in the threading hole in a penetrating manner; the metal base plate, the graphene heating film and the decoration panel are sequentially stacked together, the lead is electrically connected with the graphene heating film, the front sealing plate is attached to the front surface of the decoration panel and is covered on the front surface of the metal base plate, the rear sealing plate is attached to the rear surface of the decoration panel and is covered on the rear surface of the metal base plate.

Preferably, four threading holes which vertically penetrate through are formed in the metal base plate, the four threading holes are respectively located at four corners of the metal base plate, the wires penetrate through the threading holes respectively, the wires are electrically connected with the graphene heating film respectively, and the other ends of the wires are connected with waterproof joints respectively.

Preferably, the rear surface of the front sealing plate is provided with a front inserting piece part, and the front inserting piece part is inserted on the front surface of the decorative panel.

Preferably, the front sealing plate is a copper plate or an aluminum alloy plate, and the bottom edge of the front sealing plate is welded with the metal bottom plate.

Preferably, the front surface of the rear sealing plate is provided with a rear inserting piece part, and the rear inserting piece part is inserted on the rear surface of the decoration panel.

Preferably, the rear sealing plate is a copper plate or an aluminum alloy plate, and the bottom edge of the rear sealing plate is welded with the metal bottom plate.

Preferably, the metal bottom plate is provided with a limiting groove on the surface, the graphene heating film is laid at the bottom of the limiting groove, the bottom surface of the decoration panel is provided with an embedded convex part, the embedded convex part is embedded in the limiting groove, and the embedded convex part is tightly pressed on the graphene heating film.

Preferably, the male buckle is located below the decorative panel, the female buckle is located on the outer side of the right wall of the decorative panel, and the female buckle is provided with a plurality of vertically-penetrating sleeve holes.

The utility model has the advantages that: through the setting of pin thread and box, can be when laying this floor that generates heat, be convenient for adjacent two realize the location fast between the floor that generates heat to help improving the efficiency that the floor that generates heat laid. The graphene heating film is arranged on the heating floor structure, so that the heating floor structure can form an independent heating unit; therefore, when a certain heating floor structure is found to be in fault, the heating floor structure can be maintained only by prying up the heating floor with the fault, replacing a new heating floor or replacing the heating floor with the fault after the heating floor structure with the fault is maintained; by adopting the heating floor structure, the floor heating is easier to maintain, so that the maintenance cost of a user is reduced; and the heating floor structure is very simple to lay, and the purpose of quick laying can be realized. Through connecting the wire on graphite alkene heating film and wear to put on the through wires hole, enable the wire like this and be located the bottom surface of floor structure that generates heat to can be convenient for hide and lay of wire. Through the setting of metal bottom plate, enable the floor structure that generates heat and have the structure of high strength to help improving the reliability of the floor structure that generates heat. Because graphite alkene heating film has the stability that generates heat good, long service life, rate of heating is fast, generate heat even advantage, this can make this floor structure that generates heat outwards give off the heat uniformly, can also make this floor structure that generates heat can play rapid heating's effect to and can make this floor structure that generates heat have generate heat stable with long service life's advantage. Through the setting of decoration panel, can not only play the effect of decorating, can also play the effect of shielding the protection to graphite alkene heating film, this can make this floor structure that generates heat have high aesthetic property and reliability. Through the setting of preceding shrouding and back shrouding, can play and seal the effect around the floor structure that generates heat to just can play the effect of shielding the protection to graphite alkene heating film, and then help improving the security and the reliability of the floor structure that generates heat.

Drawings

Fig. 1 is a schematic structural view of a perspective view of the present invention.

Fig. 2 is a schematic view of the split structure of the present invention.

Fig. 3 is a schematic sectional view of the present invention.

Detailed Description

It should be noted that all the directional indicators (such as the top surface, the bottom surface, the left, the right, the front, and the rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

As shown in fig. 1 and 2, the heating floor structure of the present invention comprises a metal base plate 1, a graphene heating film 2, a decoration panel 3, a front sealing plate 4, and a rear sealing plate 5, wherein, as shown in fig. 1 and 3, a male buckle 11 and a female buckle 12 which are matched with each other are respectively disposed at the left end and the right end of the metal base plate 1, a threading hole 13 which vertically penetrates through the metal base plate 1 is disposed, and a wire 6 is inserted in the threading hole 13; as shown in fig. 1 to 3, the metal base plate 1, the graphene heating film 2, and the decoration panel 3 are sequentially stacked together, and the lead wires 6 are electrically connected to the graphene heating film 2, the front sealing plate 4 is attached to the front surface of the decoration panel 3, the front sealing plate 4 is placed on the front surface of the metal base plate 1, the rear sealing plate 5 is attached to the rear surface of the decoration panel 3, and the rear sealing plate 5 is placed on the rear surface of the metal base plate 1. Through the setting of pin thread 11 and box 12, can be when laying this floor that generates heat, be convenient for two adjacent floor that generate heat between realize the location fast to help improving the efficiency that the floor that generates heat was laid. The graphene heating film 2 is arranged on the heating floor structure, so that the heating floor structure can form an independent heating unit; therefore, when a certain heating floor structure is found to be in fault, the heating floor structure can be maintained only by prying up the heating floor with the fault, replacing a new heating floor or replacing the heating floor with the fault after the heating floor structure with the fault is maintained; by adopting the heating floor structure, the floor heating is easier to maintain, so that the maintenance cost of a user is reduced; and the heating floor structure is very simple to lay, and the purpose of quick laying can be realized. Through connecting wire 6 on graphite alkene heating film 2 and wear to put on through wires hole 13, enable wire 6 to be located the bottom surface of heating floor structure like this to can be convenient for hide and lay of wire 6. Through the arrangement of the metal bottom plate 1, the heating floor structure can have a high-strength structure, thereby being beneficial to improving the reliability of the heating floor structure. Because graphite alkene heating film 2 has the stability that generates heat good, long service life, rate of heating is fast, generate heat even advantage, this can make this floor structure that generates heat outwards give off the heat uniformly, can also make this floor structure that generates heat can play rapid heating's effect to and can make this floor structure that generates heat have generate heat stable with long service life's advantage. Through the setting of decoration panel 3, can not only play the effect of decorating, can also play the effect of shielding the protection to graphite alkene heating film 2, this can make this floor structure that generates heat have high aesthetic property and reliability. Through the setting of preceding shrouding 4 and back shrouding 5, can play the effect around the floor structure that generates heat of sealing to just can play the effect of shielding the protection to graphite alkene heating film 2, and then help improving the security and the reliability of the floor structure that generates heat.

The decorative panel 3 is an aluminum plate or an aluminum alloy plate or a solid wood plate or a composite wood plate or a ceramic tile or a marble plate.

The metal bottom plate 1 and the graphene heating film 2, and the graphene heating film 2 and the decoration panel 3 are bonded together through high-temperature-resistant glue.

The heating temperature of the graphene heating film 2 is controlled to be 35-50 ℃.

In the actual manufacturing process, an upper temperature sensing probe can be arranged on the bottom surface of the metal soleplate 1 or between the metal soleplate 1 and the graphene heating film 2 or between the decorative panel 3 and the graphene heating film 2 for detecting the heating temperature of the heating floor structure.

As shown in fig. 2, four threading holes 13 penetrating vertically are formed in the metal base plate 1, the four threading holes 13 are respectively located at four corners of the metal base plate 1, the wires 6 are respectively threaded through the threading holes 13, the wires 6 are respectively electrically connected with the graphene heating film 2, and the other end of each wire 6 is respectively connected with a waterproof joint 7. Through foretell structural design, can have the wire on four corners of the bottom surface of the floor structure that generates heat, this convenience that can greatly reduced wire was laid just so can be convenient for establish ties the floor structure that generates heat that adjacently arranges together, this convenience that helps improving the floor structure that generates heat and lays. Through the setting of water joint 7, not only can play waterproof effect, can also be convenient for realize the electricity fast and connect, this helps improving the security and the convenience of installation, maintenance of the floor structure that generates heat.

Two of the wires 6 may be connected together during the actual manufacturing process.

As shown in fig. 1, a front insert part 41 is provided on the rear surface of the front cover plate 4, and the front insert part 41 is inserted into the front surface of the decorative panel 3. The front insert piece portion 41 is provided, and the front insert piece portion 41 is inserted into the decorative panel 3, which contributes to improving the reliability of the mounting and positioning of the front sealing plate 4.

The front sealing plate 4 is a copper plate or an aluminum alloy plate, and the bottom edge of the front sealing plate 4 is welded with the metal bottom plate 1. Through such structural design, the reliability of installation location of front closing plate 4 can be further improved.

When the front sealing plate 4 is not made of metal, the front sealing plate 4 is respectively bonded with the metal bottom plate 1 and the decoration panel 3 through high-temperature-resistant glue.

As shown in fig. 1 and 2, a rear insert portion 51 is provided on the front surface of the rear cover plate 5, and the rear insert portion 51 is inserted into the rear surface of the decorative panel 3. The arrangement of the rear insert piece part 51 and the insertion of the rear insert piece part 51 to the decorative panel 3 contribute to the improvement of the reliability of the mounting and positioning of the rear sealing plate 5.

The rear sealing plate 5 is a copper plate or an aluminum alloy plate, and the bottom edge of the rear sealing plate 5 is welded with the metal bottom plate 1. Through such structural design, can further improve the reliability of back shrouding 5 installation location.

When the rear sealing plate 5 is not made of metal, the rear sealing plate 5 is respectively bonded with the metal bottom plate 1 and the decoration panel 3 through high-temperature-resistant glue.

As shown in fig. 3, the metal base plate 1 has a surface formed with a limit groove 14, the graphene heating film 2 is laid on the bottom of the limit groove 14, the decorative panel 3 has a bottom surface formed with an embedded convex portion 31, the embedded convex portion 31 is embedded in the limit groove 14, and the embedded convex portion 31 is pressed against the graphene heating film 2. By arranging the limit groove 14 and the fitting convex portion 31 and fitting the fitting convex portion 31 into the limit groove 14, the reliability of the joining of the metal bottom plate 1 and the decorative panel 3 can be effectively improved. Through laying graphite alkene heating film 2 in spacing groove 14 to the messenger inlays dress convex part 31 and sticiss on graphite alkene heating film 2, can not only play fine limiting displacement to graphite alkene heating film 2 like this, and the heat that graphite alkene heating film 2 of can also being convenient for sent conducts to decoration panel 3 fast on, thereby just can satisfy the effect of rapid heating.

The metal base plate 1 is an aluminum section plate, and a male buckle 11, a female buckle 12 and a limiting groove 14 are formed in the forming process of the metal base plate 1, so that the manufacturing efficiency of the metal base plate 1 is improved.

The male buckle 11 and the female buckle 12 can also adopt independent aluminum profile structures, and when the heating floor structure is assembled, the male buckle 11 and the female buckle 12 are welded on the metal bottom plate 1 or bonded on the decorative panel 3; such a structure facilitates the manufacture of large heating floor structures.

As shown in fig. 2 and 3, the male buckle 11 is located below the decorative panel 3, the female buckle 12 is located outside the right wall of the decorative panel 3, and the female buckle 12 is provided with a plurality of vertically penetrating through holes 121. Through making pin thread 11 be located decoration panel 3 below to and make box 12 be located the right wall outside of decoration panel 3, can satisfy the needs of lock like this, can play fine shielding effect to pin thread 11 and box 12 when pin thread 11 and box 12 lock unification again, accomplish the back of assembling at two floor structures that generate heat like this, just can not see pin thread 11 and box 12 between the concatenation face, thereby avoid pin thread 11, box 12 to influence the aesthetic property of the floor structure that generates heat. By positioning the female buckle 12 outside the right wall of the decorative panel 3, it is convenient for the screw to pass through the through hole 121, so that the installation and fixation of the heating floor structure can be facilitated. Through the establishment of each trepanning hole 121, be convenient for be fixed in subaerial through the floor structure that generates heat with the screw to be convenient for improve the fixed reliability of floor structure installation that generates heat.

The male buckle 11 is buckled on the female buckle 12 from top to bottom.

Wherein the high temperature resistant glue is organic silicon glue, phenolic resin glue, urea-formaldehyde resin glue, temperature resistant epoxy glue or polyimide glue, etc.

Claims (8)

1. A heating floor structure is characterized in that: comprises a metal bottom plate (1), a graphene heating film (2), a decorative panel (3), a front seal plate (4) and a rear seal plate (5), wherein

The left end and the right end of the metal bottom plate (1) are respectively provided with a male buckle (11) and a female buckle (12) which are matched with each other, a threading hole (13) which vertically penetrates through the metal bottom plate (1) is formed in the metal bottom plate, and a lead (6) penetrates through the threading hole (13);

the metal bottom plate (1), the graphene heating film (2) and the decoration panel (3) are sequentially stacked and arranged together, a lead (6) is electrically connected with the graphene heating film (2), the front sealing plate (4) is attached to the front surface of the decoration panel (3), the front sealing plate (4) is arranged on the front surface of the metal bottom plate (1) in a covering mode, the rear sealing plate (5) is attached to the rear surface of the decoration panel (3), and the rear sealing plate (5) is arranged on the rear surface of the metal bottom plate (1) in a covering mode.

2. A heat-generating floor structure according to claim 1, wherein: the metal base plate is characterized in that four vertical through holes (13) are formed in the metal base plate (1), the four through holes (13) are located at four corners of the metal base plate (1) respectively, the wires (6) penetrate through the through holes (13) respectively, the wires (6) are electrically connected with the graphene heating film (2) respectively, and the other end of each wire (6) is connected with a waterproof connector (7) respectively.

3. A heat-generating floor structure according to claim 1, wherein: the rear surface of the front sealing plate (4) is provided with a front insertion piece part (41), and the front insertion piece part (41) is inserted on the front surface of the decorative panel (3).

4. A heat-generating floor structure according to claim 1 or 3, wherein: the front sealing plate (4) is a copper plate or an aluminum alloy plate, and the bottom edge of the front sealing plate (4) is welded with the metal bottom plate (1).

5. A heat-generating floor structure according to claim 1, wherein: the front surface of the rear sealing plate (5) is provided with a rear inserting piece part (51), and the rear inserting piece part (51) is inserted on the rear surface of the decorative panel (3).

6. The heat generating floor structure according to claim 1 or 5, wherein: the rear sealing plate (5) is a copper plate or an aluminum alloy plate, and the bottom edge of the rear sealing plate (5) is welded with the metal bottom plate (1).

7. A heat-generating floor structure according to claim 1, wherein: the surface of the metal bottom plate (1) is provided with a limiting groove (14), the graphene heating film (2) is laid at the bottom of the limiting groove (14), the bottom surface of the decoration panel (3) is provided with an embedded convex part (31), the embedded convex part (31) is embedded in the limiting groove (14), and the embedded convex part (31) is tightly pressed on the graphene heating film (2).

8. A heat-generating floor structure according to claim 1, wherein: the male buckle (11) is located below the decorative panel (3), the female buckle (12) is located on the outer side of the right wall of the decorative panel (3), and the female buckle (12) is provided with a plurality of vertically-penetrating sleeve holes (121).

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