CN202938404U - Anti-drop far infrared heat energy floor - Google Patents

Abstract

The utility model relates to an anti-drop far infrared heat energy floor which comprises at least two substrate layers and a far infrared radiation terrestrial heat film, wherein the peripheral walls of the substrate layers are provided with chase mortises; the far infrared radiation terrestrial heat film is arranged between the two adjacent substrate layers, a wire joint of the far infrared radiation terrestrial heat film along the length direction is connected with an electrode seat with a jack or a slot; the electrode seat is in a corner shape and is fixed in a corner-shaped insulating fastener; a corner-shaped mounting groove which corresponds to the corner-shaped insulating fastener is formed on at least one substrate layer; and the corner-shaped insulating fastener is arranged in the corner-shaped mounting groove. The wires at two ends of the far infrared radiation terrestrial heat film can be reliably connected with the electrode seat, and the operating reliability of the floor can be improved.

Description

The slip-off preventing Far-infrared heat energy floor

Technical field

The utility model relates to a kind of slip-off preventing Far-infrared heat energy floor, belongs to the Far-infrared heat energy floor technical field.

Background technology

Far-infrared heat energy floor is that far-infrared radiation underground heat mould is connected in the two substrates layer, for convenience of spliced electrical connection between the floor in twos, and can form the galvanic circle, each floor is fixed with respectively two electrode tip holders near two ends, the terminal at hotting mask two ends, far-infrared radiation ground is connected with electrode tip holder, electrode tip holder is provided with jack or slot, connector by special use is plugged on respectively in the jack or receptacle slot of two electrode tip holders again, make hotting mask formation galvanic circle, far-infrared radiation ground after energising, heating after the hotting mask energising of far-infrared radiation ground, and by the floor heating space.

The floor is that the polylith floor covering layers are installed on the ground, and each floor periphery is by the mutual clamping of chase mortise, and the floor is after using, the variations such as the floor can be vibrated, climate and the temperature difference, the floor can produce distortion, makes the junction of each electrical connector loosening phenomenon occur, and causes loose contact.Moreover, be arranged on due to electrode tip holder in the vertical slot of substrate layer, because electrode tip holder does not have cross spacing, and connector is to be plugged on electrode tip holder, especially when drawing connects connector, can cause the terminal junction of electrode tip holder and far-infrared radiation ground hotting mask loosening, even can cause disconnection, and reduce the functional reliability of heating floor.

Summary of the invention

The utility model purpose is to provide a kind of terminal at hotting mask two ends, far-infrared radiation ground that makes and reliably is connected with electrode tip holder, can improve the slip-off preventing Far-infrared heat energy floor of floor functional reliability.

the utility model is that the technical scheme that achieves the above object is: a kind of slip-off preventing Far-infrared heat energy floor, comprise two substrates layer at least and be arranged on far-infrared radiation ground hotting mask between adjacent two substrates layer, substrate layer surrounding wall has chase mortise, far-infrared radiation ground hotting mask two ends terminal along its length is connected with electrode tip holder with jack or slot, it is characterized in that: described electrode tip holder is dihedral and is fixed in the dihedral insulating fastener, at least one substrate layer is provided with the dihedral mounting groove corresponding with the dihedral insulating fastener, the dihedral insulating fastener is arranged in the dihedral mounting groove.

the utility model electrode tip holder is dihedral and is fixed in the dihedral insulating fastener, the dihedral insulating fastener is arranged in the dihedral mounting groove of substrate layer again, when the drawing connector, the dihedral insulating fastener is undertaken spacing by the dihedral mounting groove of substrate layer, dihedral insulating fastener and electrode tip holder can outwards not moved, therefore fitting operation can not cause the loosening and disconnection of electrode tip holder and far-infrared radiation hotting mask terminal junction, ground, hotting mask two ends, far-infrared radiation ground terminal can reliably be connected with electrode tip holder, conductive contact and the electrode tip holder of the ground of far-infrared radiation simultaneously hotting mask all do not contact with substrate layer, simple in structure, easy for installation, can improve the functional reliability on floor.

Description of drawings

Below in conjunction with accompanying drawing, embodiment of the present utility model is described in further detail.

Fig. 1 is the structural representation of the utility model slip-off preventing Far-infrared heat energy floor.

Fig. 2 is that the utility model dihedral insulating fastener is arranged on the structural representation on substrate layer.

Wherein: 1-wearing layer, 2-decorative layer, 3-substrate layer, 3-1-dihedral mounting groove, 4-far-infrared radiation ground hotting mask, 5-balance layer, 6-dihedral insulating fastener, 7-electrode tip holder, 8-electric insulating sealant.

The specific embodiment

See shown in Fig. 1,2, the utility model slip-off preventing Far-infrared heat energy floor, comprise two substrates layer 3 at least and be arranged on far-infrared radiation ground hotting mask 4 between adjacent two substrates layer 3, have chase mortise on substrate layer 3 surrounding walls, but base area plate thickness and material are determined the number of plies of substrate layer 3, the substrate layer 3 of its topmost is provided with decorative layer 2, and decorative layer is provided with wearing layer 1, and the bottom of foot substrate layer 3 is provided with balance layer 5.

see Fig. 1, shown in 2, the utility model far-infrared radiation ground hotting mask 4 terminal at two ends along its length is connected with electrode tip holder 7 with jack or slot, electrode tip holder 7 is dihedral and is fixed in dihedral insulating fastener 6, after electrode tip holder 7 is fixing with the terminal of far-infrared radiation ground hotting mask 4 with electric insulating sealant 8 sealings, make each electrode tip holder 7 and the terminal at hotting mask 4 two ends, far-infrared radiation ground realize sealing and insulation, process sealing again after electrode tip holder 7 and terminal adopt welding or grafting to fix, can not only further increase connection reliability, but also play the damp proof insulation effect.See shown in Fig. 1,2, at least one substrate layer 3 of the utility model is provided with the dihedral mounting groove 3-1 corresponding with dihedral insulating fastener 6, and dihedral insulating fastener 6 is arranged in dihedral mounting groove 3-1, is undertaken spacing by dihedral mounting groove 3-1 diagonal form insulating fastener 6.See shown in Fig. 1,2, dihedral insulating fastener 6 of the present utility model is the subdivision structure, and for horizontal plane divides two half, the insulation securing member is arranged on dihedral insulating fastener 6 in the dihedral mounting groove 3-1 of substrate layer 3.Dihedral insulating fastener 6 of the present utility model is the subdivision structure, be for horizontal plane divides two half or facade subdivisions two half, electric insulating sealant is fixed on dihedral insulating fastener 6 in the dihedral mounting groove 3-1 of substrate layer 3, electrode tip holder 7 reliably is arranged on substrate layer 3, because conductive contact and the electrode tip holder 7 of far-infrared radiation ground hotting mask 4 all do not contact with substrate layer 3, so improved the insulating properties on floor.

Claims (4)

1. slip-off preventing Far-infrared heat energy floor, comprise two substrates layer (3) at least and be arranged on far-infrared radiation ground hotting mask (4) between adjacent two substrates layer (3), substrate layer (3) surrounding wall has chase mortise, far-infrared radiation ground hotting mask (4) terminal at two ends along its length is connected with electrode tip holder (7) with jack or slot, it is characterized in that: described electrode tip holder (7) is dihedral and is fixed in dihedral insulating fastener (6), at least one substrate layer (3) is provided with the dihedral mounting groove (3-1) corresponding with dihedral insulating fastener (6), dihedral insulating fastener (6) is arranged in dihedral mounting groove (3-1).

2. slip-off preventing Far-infrared heat energy floor according to claim 1, is characterized in that: use electric insulating sealant (8) sealing after described electrode tip holder (7) is fixing with the terminal of far-infrared radiation ground hotting mask (4).

3. slip-off preventing Far-infrared heat energy floor according to claim 1 is characterized in that: described dihedral insulating fastener (6) is the subdivision structure, and the insulation securing member is arranged on dihedral insulating fastener (6) in the dihedral mounting groove (3-1) of substrate layer (3).

4. slip-off preventing Far-infrared heat energy floor according to claim 1 is characterized in that: described dihedral insulating fastener (6) is the subdivision structure, and electric insulating sealant is fixed on dihedral insulating fastener (6) in the dihedral mounting groove (3-1) of substrate layer (3).

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