CN203569857U - Alloy heat conducting module with tight buckle device - Google Patents

Abstract

The utility model provides an alloy heat conducting module with a tight buckle device. The alloy heat conducting module comprises a pressure-bearing heat insulation extruded sheet, a heat conducting alloy plate, a first heat conducting groove, a second heat conducting groove, a first buckle part and a second buckle part. The heat conducting alloy plate is arranged on the pressure-bearing heat insulation extruded sheet, one side of the heat conducting alloy plate is connected with the first heat conducting groove and the first buckle part, the other side of the heat conducting alloy plate is connected with the second heat conducting groove and the second buckle part, the first heat conducting groove is matched with the second heat conducting groove in structure, and the first buckle part is matched with the second buckle part in structure. The alloy heat conducting module can serve as a heat conducting device on the lower layer of a floor and can further be applied to other related fields, moreover, the spliced product is better in compactness, and loosening is avoided.

Description

Alloy heat conducting module with tight bayonet unit

Technical field

The utility model relates to heat conducting module, particularly, relates to the alloy heat conducting module with tight bayonet unit.

Background technology

Along with social progress, human living standard's raising day by day, people also constantly improving, oppose that the destruction of natural environment is also being grown with each passing day to the requirement of inhabitation and working environment mutually.Improve when improving people's residential level and working environment, in the Process of Urbanization Construction of high speed development, should advocate energetically energy saving building, green building.At architectural multiselect energy-saving material and regenerative resource and the green material of answering, we could effectively alleviate expressway around city development, contain the heavy damage that the earth is caused like this.Along with the continuous abnormality of weather, the high speed development of modern city, energy-conservation for what build, particularly, in heating and refrigeration, has also proposed acid test.Promotion energy saving building, environment protection architecture are the common cries of everyone class.

Aspect building and heating and heat conduction, the heating heat conduction industry (especially geothermal heating heat conduction) of just having risen is just leading whole building and heating industry with a kind of more and more prosperous trend.Along with the mankind's progress, also allow whole building trade, finishing industry just consider heating importance under construction in advance before building finishing, various underground heat, heating product also arise at the historic moment thus.Have traditional, unconventional, utilize natural resource and regenerative resource and natural environment contrast to provide thermal source for building in addition.

At the large air conditioning heat unit that mainly contains aspect existing building heating thermal source, boiler heat supplying unit, earth source heat pump unit, net for air-source heat pump units, also has carbon crystal heat etc.The thermal source way of output has a variety of, fan coil, radiator, grounding heat coil tube, electric cable heating etc.And be a kind of heating system of the most comfortable from level of comfort grounding heat coil tube, be also most popular a kind of heating system instantly, this heating system is adopted by increasing people at present, is also to have most market prospects.

But the floor heating product occurring in the market, mainly contains two kinds: the heating of mating formation of dry type paved heating and wet type.

There is following weak point in dry type paved heating:

(1) material is not withstand voltage, and weight-bearing surface is poor;

(2) pipeline heat conduction is slow, and it is long that the cycle is enabled in equipment heating, do not reach instant-heating;

(3) heating surface is inhomogeneous;

(4) easily fracture is damaged;

(5) cannot realize top and lay the basal planes such as Dali floor tile;

(6) to lay area little, higher to ground basic level requirement;

(7) single not easy to operate.

There is following weak point in the wet type heating of mating formation:

(1) caloric quotient requirement is high, and coefficient of thermal conductivity is poor;

(2) need to increase floor height layer weight, cannot with other basal plane levelling, interface is difficult for flat closing;

(3) long construction period, needs curing period long, transport of materials trouble;

(4) need professional person to install, work consuming is consuming time, and single single work cannot complete the installation task of laying;

(5) the heating equipment cycle long, uneconomical environmental protection;

(6) cost is high, and material cannot be realized and can be recycled;

(7) cannot realize instant-heating, the heat resource equipment work period is long, and energy consumption is large, and user heating expense is high, and equipment heating capacity is had relatively high expectations relatively.

Therefore be necessary to develop a kind of more economical, energy-saving and environmental protection, and amalgamation is simply difficult for loosening heat conducting module product.

Utility model content

For defect of the prior art, the purpose of this utility model is to provide a kind of alloy heat conducting module with tight bayonet unit.

The alloy heat conducting module with tight bayonet unit providing according to the utility model, comprising: the heat insulation extruded sheet 1 of pressure-bearing, heat conduction alloy sheets 2, the first thermal trough 3, the second thermal trough 4, the first clamping part 5, the second clamping part 6;

Heat conduction alloy sheets 2 is arranged on the heat insulation extruded sheet 1 of pressure-bearing;

One side of heat conduction alloy sheets 2 is connected with the first thermal trough 3 and the first clamping part 5, and the opposite side of heat conduction alloy sheets 2 is connected with the second thermal trough 4 and the second clamping part 6;

The first thermal trough 3 and the second thermal trough 4 structurally match; The first clamping part 5 and the second clamping part 6 structurally match.

Preferably, wherein:

The first clamping part 5 comprises: the horizontal expansion portion 51, the pothook 52 that connect successively; The medial extremity of horizontal expansion portion 51 connects heat conduction alloy sheets 2, the outboard end Connection Card hook portion 52 of horizontal expansion portion 51;

The second clamping part 6 comprises: deck portion 61, draw-in groove portion 62; Draw-in groove portion 62 is arranged in deck portion 61;

Horizontal expansion portion 51 structurally matches with deck portion 61; Pothook 52 and draw-in groove portion 62 structurally match.

Preferably, the mouth of hook of pothook 52 is towards the heat insulation extruded sheet 1 of pressure-bearing, and the notch of draw-in groove portion 62 is towards top.

Preferably, also comprise: soft 7 of antifriction sound;

Soft 7 of antifriction sound is arranged on the downside of horizontal expansion portion 51 and/or the upper side of deck portion 61.

Preferably, the thickness of soft 7 of antifriction sound equals or is slightly larger than the difference in height between the downside of horizontal expansion portion 51 and the upper side of deck portion 61.

Preferably, also comprise: strengthen and heat conduction muscle 8;

Reinforcement and heat conduction muscle 8 are arranged on the installation base surface 21 of heat conduction alloy sheets 2.

Preferably, the notch lower edge of the second thermal trough 4 is higher than groove face lowest part.

Preferably, the outboard end of horizontal expansion portion 51 is positioned at the outside of the first thermal trough 3 outer ends.

Preferably, between the heat insulation extruded sheet 1 of the part or all of medial surface of heat conduction alloy sheets 2 and pressure-bearing, by high temperature resistant glue bonding connection, between described heat conduction alloy sheets and floor, also by high temperature resistant glue Binder Phase, connect.

Preferably, heat conduction alloy sheets 2, the first thermal trough 3, the second thermal trough 4, the first clamping part 5, the second clamping part 6 are an overall structure.

Compared with prior art, the utlity model has following beneficial effect:

1, on the utility model, the building materials such as installed floor/floor tile/marble can be added, therefore not only can other association areas can also be applied to as the heat-transfer device of floor lower floor, for example heat-transfer device of metope internal layer etc.

2, adjacent with the first clamping part and the second clamping part between the alloy heat conducting module of tight bayonet unit, thus make the product after amalgamation there is better tight ness rating, avoid loosening.Changed conventional dry paving method and existed large area and lay and need the defects such as multi agent cooperation just can lay, simple and easy while making installation of the present utility model, singlely just can construct, without professional.

3, adjacently with the first clamping part between the alloy heat conducting module of tight bayonet unit and the gap location of the second clamping part, be provided with soft of antifriction sound, therefore when heat conduction alloy sheets is stressed when being slightly out of shape or small displacement occurring, by soft of antifriction sound, can avoid noise, can alleviate the conduction of number voice between floor and floor, can play sound insulating and absorbing effect, give user good experience.

4, the adjacent spatial accommodation that can piece together electro-heat equipment with the first thermal trough between the alloy heat conducting module of tight bayonet unit and the second thermal trough, and then can be fit into water pipe 9 or heating cable.

5, in heat conduction alloy sheets, be provided with and strengthen and heat conduction muscle, thereby while being used in the fields such as floor tile, marble when the utility model, reinforcement and heat conduction muscle at the upper surface of heat conduction alloy sheets can embed floor tile, marmorean soffit, thus play can be better fastening, prevent alloy temperature distortion and conductive force.

6, pressure-bearing extrusion molding module adopts high density, resistance toly suppresses sizing extruded sheet anti-aging, moistureproof high insulating effect, the pressure-bearing on its anti-single square meter, and not easy fracture, breakage, can solve in conventional dry heating pipeline ground loading capacity poor.

7, energy and floor tile or marble lay mutual levelling, and bed thickness is similar, and dislocation-free step is more reasonable.Short construction period, meets large area and lays, and without maintenance period, without the multiple raw material of buying, material is light, can greatly reduce cost of transportation.The top of pressure-bearing extrusion molding module adopts the high temperature resistant glue of environmental protection colorless and odorless and alloy sheets mutually smooth overstocked bonding, not yielding coming off.

8, between the heat insulation extruded sheet of pressure-bearing and heat conduction alloy sheets, fit tightly, by larger area heat-transfer surface, hot quick conductive is gone up to the floor heating material (basal planes such as various floors, marble, floor tile) of alloy sheets top, can realize at short notice the effect of instant-heating.

9, in the utility model, the thickness that can realize after the smooth overstocked adhesion of alloy sheets and pressure-bearing extrusion molding module is no more than 2 centimetres, stick marble or floor tile also can with other basal plane levelling, with in conventional art, need to increase by 7 centimetres of above wet types heating system of mating formation and compare high thin a lot, material is added up every square metre less than 2 kilograms, can not cause reducing the problem that story height increases bed thickness.

10,, because heat-conducting effect of the present utility model is good, therefore the circulating water temperature in hot-water heating pipe only need be heated to 30 degree, so the cycle of operation of heating equipment is short, can instantly open, reduced operating cost, not only environmental protection but also economy, also can realize the recoverable of constructional materials.

Accompanying drawing explanation

By reading the detailed description of non-limiting example being done with reference to the following drawings, it is more obvious that other features, objects and advantages of the present utility model will become:

Fig. 1 is overall structure schematic diagram of the present utility model;

Fig. 2 is the structural representation of heat conduction alloy sheets in the utility model;

Fig. 3 is the structural representation of the heat insulation extruded sheet of pressure-bearing in the utility model;

Fig. 4 is the principle schematic of the utility model amalgamation;

Fig. 5 is the local structure for amplifying schematic diagram of two described heat conducting module mosaics in Fig. 4;

Fig. 6 is that the utility model changes the overall structure view in example;

Fig. 7 is the local structure for amplifying schematic diagram that the utility model changes two described heat conducting module mosaics in example.

The specific embodiment

Below in conjunction with specific embodiment, the utility model is elaborated.Following examples will contribute to those skilled in the art further to understand the utility model, but not limit in any form the utility model.It should be pointed out that to those skilled in the art, without departing from the concept of the premise utility, can also make some distortion and improvement.These all belong to protection domain of the present utility model.

As shown in Figures 1 to 4, the alloy heat conducting module with tight bayonet unit providing according to the utility model, comprising: the heat insulation extruded sheet 1 of pressure-bearing, heat conduction alloy sheets 2, the first thermal trough 3, the second thermal trough 4, the first clamping part 5, the second clamping part 6, soft 7 of antifriction sound, reinforcement and heat conduction muscle 8.Between the heat insulation extruded sheet 1 of the part or all of medial surface of heat conduction alloy sheets 2 and pressure-bearing by high temperature resistant glue bonding connection.Heat conduction alloy sheets 2, the first thermal trough 3, the second thermal trough 4, the first clamping part 5, the second clamping part 6 are an overall structure.Reinforcement and heat conduction muscle 8 are arranged on the installation base surface 21 of heat conduction alloy sheets 2.And in the variation example shown in Fig. 6, Fig. 7, reinforcement and heat conduction muscle 8 can be omitted.

As shown in Figure 4, heat conduction alloy sheets 2 is arranged on the heat insulation extruded sheet 1 of pressure-bearing; One side of heat conduction alloy sheets 2 is connected with the first thermal trough 3 and the first clamping part 5, the opposite side of heat conduction alloy sheets 2 is connected with the second thermal trough 4 and the second clamping part 6, between the first clamping part 5 between adjacent heat conducting module and the second clamping part 6, can install by buckle.The first thermal trough 3 and the second thermal trough 4 structurally match, and the first thermal trough 3 between adjacent heat conducting module and the second thermal trough 4 can amalgamation form a spatial accommodation.The notch lower edge of the second thermal trough 4 is higher than groove face lowest part.

The first clamping part 5 and the second clamping part 6 structurally match.The first clamping part 5 comprises: the horizontal expansion portion 51, the pothook 52 that connect successively; The medial extremity of horizontal expansion portion 51 connects heat conduction alloy sheets 2, the outboard end Connection Card hook portion 52 of horizontal expansion portion 51; The second clamping part 6 comprises: deck portion 61, draw-in groove portion 62; Draw-in groove portion 62 is arranged in deck portion 61; Horizontal expansion portion 51 structurally matches with deck portion 61; Pothook 52 and draw-in groove portion 62 structurally match.The mouth of hook of pothook 52 is towards the heat insulation extruded sheet 1 of pressure-bearing, and the notch of draw-in groove portion 62 is towards top.The outboard end of horizontal expansion portion 51 is positioned at the outside of the first thermal trough 3 outer ends.

Soft 7 of antifriction sound is arranged on the downside of horizontal expansion portion 51 and/or the upper side of deck portion 61.The thickness that antifriction sound is soft 7 equals or is slightly larger than the difference in height between the downside of horizontal expansion portion 51 and the upper side of deck portion 61.Thereby when heat conduction alloy sheets is stressed when being slightly out of shape or small displacement occurring, by soft of antifriction sound, can avoid noise, can alleviate the conduction of number voice between floor and floor, can play sound insulating and absorbing effect, give user good experience.

Above specific embodiment of the utility model is described.It will be appreciated that, the utility model is not limited to above-mentioned specific implementations, and those skilled in the art can make various distortion or modification within the scope of the claims, and this does not affect flesh and blood of the present utility model.

Claims (10)

1. one kind with the tight alloy heat conducting module of bayonet unit, it is characterized in that, comprising: the heat insulation extruded sheet of pressure-bearing (1), heat conduction alloy sheets (2), the first thermal trough (3), the second thermal trough (4), the first clamping part (5), the second clamping part (6);

Heat conduction alloy sheets (2) is arranged on the heat insulation extruded sheet of pressure-bearing (1);

One side of heat conduction alloy sheets (2) is connected with the first thermal trough (3) and the first clamping part (5), and the opposite side of heat conduction alloy sheets (2) is connected with the second thermal trough (4) and the second clamping part (6);

The first thermal trough (3) structurally matches with the second thermal trough (4); The first clamping part (5) and the second clamping part (6) structurally match.

2. the alloy heat conducting module with tight bayonet unit according to claim 1, is characterized in that, wherein:

The first clamping part (5) comprising: the horizontal expansion portion (51), the pothook (52) that connect successively; The medial extremity of horizontal expansion portion (51) connects heat conduction alloy sheets (2), the outboard end Connection Card hook portion (52) of horizontal expansion portion (51);

The second clamping part (6) comprising: deck portion (61), draw-in groove portion (62); Draw-in groove portion (62) is arranged in deck portion (61);

Horizontal expansion portion (51) structurally matches with deck portion (61); Pothook (52) and draw-in groove portion (62) structurally match.

3. the alloy heat conducting module with tight bayonet unit according to claim 2, is characterized in that, the mouth of hook of pothook (52) is towards the heat insulation extruded sheet of pressure-bearing (1), and the notch of draw-in groove portion (62) is towards top.

4. the alloy heat conducting module with tight bayonet unit according to claim 2, is characterized in that, also comprises: soft of antifriction sound (7);

Antifriction sound soft (7) is arranged on the downside of horizontal expansion portion (51) and/or the upper side of deck portion (61).

5. according to claim 4 with the tight alloy heat conducting module of bayonet unit, it is characterized in that, the thickness of antifriction sound soft (7) equals or is slightly larger than the difference in height between the downside of horizontal expansion portion (51) and the upper side of deck portion (61).

6. the alloy heat conducting module with tight bayonet unit according to claim 1, is characterized in that, also comprises: strengthen and heat conduction muscle (8);

Reinforcement and heat conduction muscle (8) are arranged on the installation base surface (21) of heat conduction alloy sheets (2).

7. the alloy heat conducting module with tight bayonet unit according to claim 1, is characterized in that, the notch lower edge of the second thermal trough (4) is higher than groove face lowest part.

8. the alloy heat conducting module with tight bayonet unit according to claim 2, is characterized in that, the outboard end of horizontal expansion portion (51) is positioned at the outside of the first thermal trough (3) outer end.

9. according to claim 1 with the tight alloy heat conducting module of bayonet unit, it is characterized in that, between the part or all of medial surface of heat conduction alloy sheets (2) and the heat insulation extruded sheet of pressure-bearing (1), by high temperature resistant glue bonding connection, between described heat conduction alloy sheets (2) and floor, also by high temperature resistant glue Binder Phase, connect.

10. according to claim 1 with the tight alloy heat conducting module of bayonet unit, it is characterized in that, heat conduction alloy sheets (2), the first thermal trough (3), the second thermal trough (4), the first clamping part (5), the second clamping part (6) are an overall structure.

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