CN212299136U - Floor heating energy-saving heat insulation structure - Google Patents

Abstract

The utility model relates to an energy-conserving insulation construction of ground heating, it is including laying the reflection stratum on the floor, the fixed installed part that is provided with on the reflection stratum, the installed part includes that two an organic whole are provided with the V-arrangement piece, and the opening of two V-arrangement pieces all sets up side by side, two towards the ground reflection stratum, form the mounting groove between the V-arrangement piece, place the ground heating coil in the mounting groove, the ground heating coil is laid along the mounting groove, is located the reflection stratum upper berth and is equipped with the adhesive linkage, the ceramic tile layer is laid to the upper surface of adhesive linkage. The utility model discloses have and will reduce ground heating coil to the thermal effect of floor direction transmission.

Description

Floor heating energy-saving heat insulation structure

Technical Field

The utility model belongs to the technical field of the technique of warm up and specifically relates to an energy-conserving insulation construction warms up.

Background

When the floor heating equipment is laid, a floor heating heat preservation layer is required to be used between the ground and a floor in a room, heat of a floor heating pipe is prevented from being transmitted to the ground, a pipeline is fixed on the floor heating heat preservation layer, a layer of cement is poured on the floor heating heat preservation layer, and the floor or a ceramic tile is laid on the cement. The heat preservation one strand adopts thermal-insulated insulation material preparation such as EPS, and at present, the structure of the ground heating heat preservation of generally using on the market is comparatively simple, and the ground heating pipe is fixed in on the heat preservation with structures such as pipe clamp.

Application publication number is CN 106642276A's patent application discloses a foundation structure is laid to ground heating coil, including laying the reflection stratum on the floor, it is strange that the gland has netted net on the reflection stratum, and the check strip facial make-up on the left and right sides of every check net on net layer is equipped with the fastener of joint ground heating coil, and ground heating coil is laid in the same direction that sets up of fastener, has laid the heat preservation between each fastener, and the heat preservation up end covers has the heat dissipation layer. The clamping pieces are stabilized on the floor through the clamping pieces and the grid layer, heat can be uniformly dissipated through the heat insulation layer and the heat dissipation layer, and the heating effect on a room is achieved.

However, in the above structure, when setting up the heat preservation, the heat preservation contacts with ground heating coil and reflection stratum respectively to the heat is more to floor direction transfer heat through heat preservation and reflection stratum.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an energy-conserving insulation construction of ground heating, it has the effect that will reduce ground heating coil to the heat transfer of floor direction.

The above object of the present invention is achieved by the following technical solutions:

the utility model provides an energy-conserving insulation construction of ground heating, is including laying the reflection stratum on the floor, the fixed installed part that is provided with on the reflection stratum, the installed part includes that two an organic whole are provided with V-arrangement spare, and the opening of two V-arrangement spares all sets up side by side towards ground reflection stratum, two form the mounting groove between the V-arrangement spare, place the ground heating coil in the mounting groove, the ground heating coil is laid along the mounting groove, is located the reflection stratum upper berth and is equipped with the adhesive linkage, the ceramic tile layer is laid to the upper surface of adhesive linkage.

Through adopting above-mentioned technical scheme, during the installation, lay the reflection stratum on the floor, place the installed part on the reflection stratum again, and V-arrangement spare on the installed part is the opening and places towards the reflection stratum, thereby make the mounting groove up, place the mounting groove with the ground heating coil in, then lay adhesive linkage and ceramic tile layer, and the adhesive linkage is located the installed part, form the clearance under the installed part between the board, thereby when the ground heating coil dispels the heat, the clearance can separate thermal transmission, thereby reduce the heat of ground heating coil to the transmission of floor direction.

The utility model discloses further set up to: the installed part is provided with a plurality ofly along the length direction of ground heating coil to two adjacent installed parts splice each other on same straight line.

Through adopting above-mentioned technical scheme, the installed part is provided with a plurality ofly at the length direction of ground heating coil, makes the installed part can divide into a plurality ofly to the in-process of transportation will install range upon range of and place, convenient transportation.

The utility model discloses further set up to: the step has been seted up respectively at the both ends of installed part to the step that is located the installed part both ends is misplaced each other, and when two adjacent installed parts splice, the installed part passes through the mutual overlap joint of step.

Through adopting above-mentioned technical scheme, the both ends of installed part set up the step, and two installed parts are when interconnect, by the mutual overlap joint of two steps, can make to connect between two installed parts sealed, avoid the adhesive linkage to enter into the installed part below.

The utility model discloses further set up to: the side that the mounting groove was kept away from to V-arrangement piece is provided with the installation along, and the installation is along forming with the integrative setting of V-arrangement piece, the installation is followed and is provided with the nail, and the installed part passes through the nail to be fixed on the floor.

Through adopting above-mentioned technical scheme, be provided with the installation on the V-arrangement piece along forming with the integrative setting of V-arrangement piece, the installation is provided with the nail along last, fixes the V-arrangement piece on the floor through the nail to can avoid when laying the adhesive linkage, the installed part removes on the floor.

The utility model discloses further set up to: the upper surface on floor has laid the screed-coat, the reflection stratum is located the upper surface of screed-coat, the nail runs through reflection stratum and screed-coat.

Through adopting above-mentioned technical scheme, the screed-coat is laid to the upper surface on floor, and the nail runs through reflector layer and screed-coat, and the screed-coat makes the installed part lay more convenient, and it is easier on the screed-coat to lay the reflector layer level simultaneously, makes to remain the clearance between reflector layer and the installed part.

The utility model discloses further set up to: the mounting part is fixedly provided with a pressing strip, the middle part of the pressing strip is pressed on the ground heating pipe, and two ends of the pressing strip are respectively fixed on the two V-shaped parts.

Through adopting above-mentioned technical scheme, the layering is fixed on the installed part, and the layering middle part is pressed on ground warms up, fixes the layering on V-arrangement spare through the both ends with the layering to make the layering fix on V-arrangement spare, thereby can make ground heating coil pass through the layering and fix in the mounting groove.

The utility model discloses further set up to: the two ends of the pressing strip are bent to form hooks, connecting lugs are arranged on the outer sides of included angles of the V-shaped pieces, pins penetrate through the connecting lugs, and the hooks are hung on the pins.

By adopting the technical scheme, the two ends of the pressing strip are provided with the hooks, the pins are arranged on the connecting lugs, the hooks are connected with the pins, and the pressing strip is fixed on the V-shaped part, so that the pressing strip is convenient to mount.

The utility model discloses further set up to: the mounting piece is an asbestos cement tile made of chrysotile.

Through adopting above-mentioned technical scheme, the installed part is the asbestos cement tile that the chrysotile made, can make the installed part preparation easier, and the quality is light, and the transportation is convenient.

1. The floor heating pipe is laid on the floor through the reflecting layer, the mounting piece is placed on the reflecting layer, the opening of the V-shaped piece on the mounting piece faces the reflecting layer, so that the mounting groove faces upwards, the floor heating pipe is placed in the mounting groove, then the bonding layer and the tile layer are laid, the bonding layer is located on the mounting piece, and a gap is formed between the lower portion of the mounting piece and the plate, so that when the floor heating pipe dissipates heat, the gap can block heat transfer, and heat transferred from the floor heating pipe to the floor is reduced;

2. the installation parts are arranged in the length direction of the floor heating pipe, so that the installation parts can be divided into a plurality of parts, and the installation parts are stacked in the transportation process, so that the transportation is convenient;

3. the pressing strip is fixed on the mounting piece, the middle part of the pressing strip is pressed on the floor heating, and the pressing strip is fixed on the V-shaped piece by fixing two ends of the pressing strip on the V-shaped piece, so that the floor heating pipe can be fixed in the mounting groove through the pressing strip.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the present invention without an adhesive layer;

fig. 3 is an exploded view of the splice structure of the mount.

In the figure, 1, a ceramic tile layer; 2. an adhesive layer; 3. a reflective layer; 4. leveling layer; 5. a floor; 6. a ground heating pipe; 7. a mounting member; 71. a V-shaped piece; 72. mounting grooves; 73. a step; 74. mounting edges; 75. connecting lugs; 751. a through hole; 8. nailing; 9. layering; 91. hooking; 10. a pin.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and fig. 2, for the utility model discloses an energy-conserving insulation construction of ground heating, including having set gradually ceramic tile layer 1 from top to bottom, adhesive linkage 2, reflection stratum 3, screed-coat 4 and floor 5, adhesive linkage 2 forms and is used for bonding the ceramic tile for cement mortar lays on reflection stratum 3, need set up ground heating coil 6 at the upper surface of reflection stratum 3 before laying adhesive linkage 2, the below of ground heating coil 6 is provided with installed part 7, lay 6 levels of ground heating coil on adhesive linkage 2 through installed part 7, reflection stratum 3 is used for reducing the temperature of ground pipe to the direction diffusion on floor 5.

Referring to fig. 1, the mounting member 7 includes two V-shaped members 71, the cross-section of the two V-shaped members 71 is V-shaped, the two V-shaped members 71 are arranged side by side, and the two V-shaped members 71 are integrally formed, and the mounting member 7 is an asbestos cement tile made of chrysotile, thereby reducing the weight of the mounting member 7. When laying, lay the opening that V-arrangement piece 71 is the V-arrangement towards reflection stratum 3, form the ascending mounting groove 72 of opening between two V-arrangement pieces 71, ground heating coil 6 is laid along the length direction of mounting groove 72, adhesive linkage 2 is laid and is kept away from the surface of reflection stratum 3 at installed part 7, leave the space between one side that makes installed part 7 towards reflection stratum 3 and reflection stratum 3, after heat distributes from ground heating coil 6, the heat is through the more heat of adhesive linkage 2 direction diffusion to the ceramic tile, and when passing through installed part 7, because the space between installed part 7 and the reflection stratum 3, thereby the heat of transmitting to floor 5 direction has been reduced.

Referring to fig. 2 and 3, the mounting member 7 is block-shaped, the mounting members 7 are laid along the length direction of the floor heating pipe 6, the cross section of the mounting member 7 is W-shaped, the mounting members 7 can be stacked during transportation, and the transportation cost of the mounting members 7 is reduced. Be provided with a step 73 respectively at the both ends of installed part 7, be located the step 73 at installed part 7 both ends and misplace each other, be located the step 73 at installed part 7 both ends and set up respectively on installed part 7 and below to two adjacent installed parts 7 can overlap joint each other with the step 73 on two installed parts 7 when the concatenation, at the lapped in-process, are located the step 73 of two installed part 7 interconnect and overlap, make things convenient for laying of installed part 7. A mounting edge 74 is provided at an edge of the V-shaped member 71 away from the mounting groove 72, the mounting edge 74 being formed integrally with the V-shaped member 71. When laying installation piece 7, the installation is along 74 level pastes on reflection stratum 3, sets up nail 8 on installation edge 74, and nail 8 runs through the installation from the top down in proper order along 74, reflection stratum 3 and screed-coat 4 to insert the inside on floor 5, make installation piece 7 fix on floor 5, prevent that installation piece 7 from removing when laying adhesive linkage 2.

Referring to fig. 3, a pressing strip 9 is fixedly arranged on the mounting piece 7, the pressing strip 9 is a sheet strip, two ends of the pressing strip 9 are bent to form hooks 91, the middle of the pressing strip 9 is located above the ground heating pipe 6, a connecting lug 75 is arranged on the outer side of the included angle of the V-shaped piece 71, the connecting lug 75 and the V-shaped piece 71 are integrally arranged, and when the mounting pieces 7 are mutually stacked, a gap is reserved between the connecting lug 75 and the inner bottom surface of the V-shaped piece 71, so that the connecting lug 75 is prevented from being damaged by mutual extrusion of the mounting pieces 7 in the transportation process. Two connecting lugs 75 are arranged on each V-shaped part 71, a hook 91 is placed between the two connecting lugs 75, through holes 751 are formed in the connecting lugs 75, the through holes 751 on the two connecting lugs 75 are located on the same straight line, a pin 10 penetrates through the through holes 751 and penetrates through the hook 91, so that two ends of a pressing strip 9 are fixed on the two V-shaped parts 71 respectively, the middle of the pressing strip 9 abuts against the floor heating pipe 6, and the floor heating pipe 6 is fixed in the mounting groove 72.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. A floor heating energy-saving heat insulation structure comprises a reflection layer (3) laid on a floor (5), and is characterized in that: fixed installed part (7) of being provided with on reflector layer (3), installed part (7) are provided with V-arrangement spare (71) including two an organic whole, and the opening of two V-arrangement spares (71) is all towards ground reflector layer (3), and two V-arrangement spares (71) set up side by side, two form mounting groove (72) between V-arrangement spare (71), place ground heating coil (6) in mounting groove (72), ground heating coil (6) are laid along mounting groove (72), are located reflector layer (3) upper berth and are equipped with adhesive linkage (2), ceramic tile layer (1) is laid to the upper surface of adhesive linkage (2).

2. A floor heating energy-saving heat-insulating structure according to claim 1, characterized in that: the installation parts (7) are arranged in a plurality of numbers along the length direction of the floor heating pipe (6), and two adjacent installation parts (7) are mutually spliced on the same straight line.

3. A floor heating energy-saving heat-insulating structure according to claim 2, characterized in that: step (73) have been seted up respectively at the both ends of installed part (7) to step (73) that are located installed part (7) both ends misplace each other, and when two adjacent installed parts (7) splice, installed part (7) overlap joint each other through step (73).

4. A floor heating energy-saving heat-insulating structure according to claim 1, characterized in that: v-arrangement spare (71) are kept away from the side of mounting groove (72) and are provided with installation edge (74), and the installation is followed (74) and is set up with V-arrangement spare (71) an organic whole and form, be provided with nail (8) on the installation edge (74), installed part (7) are fixed on floor (5) through nail (8).

5. A floor heating energy-saving heat preservation structure according to claim 4, characterized in that: leveling blanket (4) have been laid to the upper surface on floor (5), reflection stratum (3) are located the upper surface of leveling blanket (4), reflection stratum (3) and leveling blanket (4) are run through in nail (8).

6. A floor heating energy-saving heat-insulating structure according to claim 1, characterized in that: the installation part (7) is fixedly provided with a pressing strip (9), the middle part of the pressing strip (9) is pressed on the ground heating pipe (6), and two ends of the pressing strip (9) are respectively fixed on the two V-shaped parts (71).

7. A floor heating energy-saving heat-insulating structure as claimed in claim 6, characterized in that: both ends of layering (9) are all bent and are formed couple (91), the outside of the contained angle department of V-arrangement spare (71) is provided with engaging lug (75), wear to be equipped with pin (10) in engaging lug (75), couple (91) are hung on pin (10).

8. A floor heating energy-saving heat-insulating structure according to claim 1, characterized in that: the mounting piece (7) is made of asbestos cement tiles made of chrysotile.

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