CN217400236U - Heating insulation structure - Google Patents

Abstract

The utility model discloses a heating and heat-insulating structure, which comprises a bottom heat-insulating plate and heat-insulating modules, wherein the bottom heat-insulating plate is cut with a wiring channel, the heat-insulating modules are laid above the bottom heat-insulating plate in a grid shape, a spacing seam between the heat-insulating modules is aligned with the wiring channel to accommodate water and electric pipelines, the corners of four adjacent heat-insulating modules are fixed by corner connectors, the groove of each heat-insulating module is laid with a heating pipeline, the inner bulge of each heat-insulating module is provided with a perforation, a supporting leg is arranged at the required perforation, a chassis of the supporting leg is fixed on the ground, the lower end of a screw rod of the supporting leg is connected on the chassis, the upper end of the screw rod is screwed with a nut, the nut is fixedly sleeved with a bearing tray, the bearing tray comprises four convex corners, the four convex corners are provided with upper screwed holes, a cross-shaped lower concave part is formed between the four convex corners, and lower screwed holes are arranged at the four ends of the cross-shaped lower concave part, jacks for the drag hook to penetrate are arranged between the connecting convex parts between the outer edges of the four convex angle parts and the corresponding concave parts.

Description

Heating and heat-preserving structure

Technical Field

The utility model relates to a heating insulation structure.

Background

In the prior art, a water and electricity pipeline is arranged at the lower part of an overhead plate, and a heating pipeline is arranged at the upper part of the plate. The arrangement mode firstly needs higher floor construction thickness, so that the clear height of the space after the indoor decoration is finished is reduced, and the requirements of residents cannot be well met. In addition, because the pipelines of each layer and the overhead plate are overlapped, although a mechanical assembly mode is adopted in the installation method, the upper layer structure cannot be removed when the lower layer structure such as the overhead plate or the water and electricity pipeline needs to be maintained, replaced or modified. Therefore, although the assembled ground in the prior art has the advantages of high construction speed, no field pollution and the like, the originally-possessed advantages of easy maintenance, detachability, renewability and the like in later use cannot be fully embodied.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a heating insulation structure, water and electricity heating line arrange between insulation material, have saved the problem that water and electricity heating line occupy high space alone.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a heating and heat-insulating structure comprises a bottom layer heat-insulating plate and heat-insulating modules, wherein the bottom layer heat-insulating plate is laid on the ground, a wiring channel is cut on the bottom layer heat-insulating plate, the heat-insulating modules are laid above the bottom layer heat-insulating plate in a grid shape, spacing seams among the heat-insulating modules are aligned with the wiring channel and can contain water and electric pipelines, the corners of four adjacent heat-insulating modules are fixed through corner connectors, the groove of each heat-insulating module is laid with a heating pipeline, the inner bulge of each heat-insulating module is provided with a perforation, supporting legs are installed at the required perforation positions, the chassis of each supporting leg is fixed on the ground, the lower ends of the screw rods of the supporting legs are rotatably connected onto the chassis, nuts are screwed on the upper ends of the screw rods, bearing trays are fixedly sleeved on the nuts, the bearing trays comprise four convex corners, upper threaded holes are arranged on the four convex corners, and lower concave parts in a cross shape are formed among the four convex corners, the lower threaded holes are formed in four end portions of the cross-shaped lower concave portion, inserting holes for the drag hook to penetrate through are formed between the connecting protrusions between the outer edges of the four convex corner portions and the corresponding lower concave portions, the drag hook is Z-shaped, the upper end portion of the drag hook is inserted into the lower concave portion through the inserting holes and is in compression joint above the lower threaded holes, and the lower end of the drag hook extends into the bottom groove of the heat preservation module.

The heat preservation module is the rectangle, this heat preservation module includes that bight is protruding, the lateral part is protruding and inside protruding, this bight is protruding, this lateral part is protruding, this inside arch is the interval and aligns the form with great ease, in order to form latticed wiring slot of laying the heating pipeline of # -shaped, the last mounting groove A that the cross-section is L form is established to the bellied roof in this bight, its diapire is equipped with the lower groove A that the cross-section is L form, be equipped with the vertical jack that matches with bight plug connector between last mounting groove A and lower groove A, establish vertical arc wall at the bellied lateral wall of lateral part, set up mounting groove B on the lateral wall upper end of arc wall, set up lower hook groove B at the lateral wall lower extreme of this arc wall, vertical round through-hole is seted up to this inside bellied middle part, set up upper mounting groove C on the lateral wall upper end of round through-hole, set up lower hook C under the lateral wall lower extreme of this round through-hole.

Four clamping bulges are arranged at the intersection of the longitudinal and transverse wiring grooves of the heat preservation module, and the four clamping bulges are in a cross-shaped seam shape and are used for the heating pipeline to penetrate through and be clamped and positioned.

The corner connector comprises a top plate, four inserting legs are arranged below the top plate, the four inserting legs are matched with vertical inserting holes in corners of the heat-insulation module, and hand-holding holes are formed in the top plate.

The insert leg comprises two spaced sub-legs.

The utility model has the advantages that: the utility model discloses use insulation construction planning and separate different pipelines, the pipeline is located between the insulation material, and the pipeline does not occupy high space alone for the height of elevating reduces.

Drawings

In order to more clearly illustrate the embodiments of the present invention, the embodiments will be described below with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the heat-insulating module.

Fig. 3 is a schematic structural view of the thermal module from another view angle with supporting legs and foot plug connectors.

Fig. 4 is a first structural schematic diagram of the supporting foot.

Fig. 5 is a second schematic structural view of the supporting leg (one of the hooks is inserted into the through hole, and the other hook is fixed).

FIG. 6 is a schematic view showing the construction of the corner connector.

Detailed Description

The following description is given by way of example only, and not by way of limitation, to the extent that the present invention is intended to be limited.

As shown in fig. 1 to 6, a heating insulation structure comprises a bottom insulation board 1, a wiring channel is cut at the bottom insulation board where a water and electricity pipeline 10 is required to be installed, pressed insulation modules 2 are laid on the bottom insulation board 1, spacing seams between the insulation modules 2 are in a cross grid, corners of four adjacent insulation modules 2 are fixed through corner connectors 3, a heating pipeline 20 is laid at a groove of the insulation module 2, when the water and electricity pipelines are crossed, a protruding part at the crossed position is arranged in the spacing seams between the heating modules, a through hole 231 is arranged at an inner protruding part 23 of the insulation module 2, a supporting foot 4 is installed at the required through hole, as shown in fig. 4 and 5, a chassis 41 of the supporting foot 4 is fixed on the ground, the lower end of a screw rod 42 of the supporting foot 4 is riveted on the chassis 41, the upper end of the screw rod 43 is screwed with a nut 43, a supporting tray 44 is sleeved on the nut 43, this tray 44 includes four convex corner portions, four convex corner portions are equipped with screw hole 441, form the lower concave part that is the cross form between four convex corner portions, screw hole 442 is seted up down at four tip of the lower concave part of cross form, set up the jack 443 that supplies drag hook 45 to wear to establish between the connection between the outer fringe of four convex corner portions and the lower concave part that corresponds, this drag hook 45 is the Z form, the upper end of this drag hook is inserted on the lower concave part and is pressed and pass through bolted 5 connection in lower screw hole top through the jack, the bottom groove department of insulation construction is stretched into to the lower extreme of this drag hook 45, can upwards carry and draw the heat preservation module, pass through bolted connection built on stilts floor in last screw hole top.

Preferably, as shown in fig. 3 and 5, the thermal insulation module 2 has a rectangular shape, and the thermal insulation module 2 includes corner protrusions 21, side protrusions 22 and inner protrusions 23 which are uniformly spaced and vertically aligned at intervals to form a cross-like wiring groove for laying a heating pipeline. Four clamping protrusions 24 are arranged at the intersection of the longitudinal wiring groove and the transverse wiring groove, and the four clamping protrusions 24 are in a cross seam shape and used for the penetration of a heating pipeline and the insertion and positioning of the heating pipeline. This protruding 21's of bight roof of roof establishes the section and is the last mounting groove A211 of L form, and its diapire is equipped with the lower slot A212 that the section is the L form, is equipped with the perpendicular jack 213 that matches with bight plug connector 3 between last mounting groove A and lower slot A, 3 pieces of bight grafting include square roof 31, are equipped with four inserted legs 32 in the below of this roof 31, set up on roof 31 and hold hole 33, and these four inserted legs insert the perpendicular jack 213 in four insulation module's bights to realize the fixed of adjacent four insulation module, each inserted leg all includes two spaced branch landing legs. The side wall of the side part bulge 22 is provided with a vertical arc-shaped groove 221, the upper end of the side wall of the arc-shaped groove is provided with an upper mounting groove B222, the lower end of the side wall of the arc-shaped groove is provided with a lower hook groove B223, and a supporting leg is mounted between the vertical arc-shaped grooves of the two aligned side part bulges of the two adjacent heat preservation modules; the middle part of the inner protrusion 23 is provided with a vertical round through hole 231, the upper end of the side wall of the round through hole is provided with an upper mounting groove C232 for pressing the support tray 44, and the lower end of the side wall of the round through hole is provided with a lower hook groove C233 for lifting the lower end of the drag hook.

The assembling method of the utility model is introduced as follows:

firstly, laying a bottom layer of heat insulation board, and cutting the layer of heat insulation board at the place where a water and electricity pipeline is laid;

secondly, laying heat-insulation modules on the laid bottom heat-insulation boards, wherein gaps of the heat-insulation modules are fixed by corner connectors and connect all the heat-insulation structures into a whole;

thirdly, laying a heating pipeline on an upper wiring pipeline of the heat preservation module;

penetrating through the through holes of the heat insulation module, forming holes on the bottom layer heat insulation plate so as to facilitate mounting of supporting legs;

and fifthly, when the supporting legs are installed, the draw hooks of the supporting legs are obliquely hung on the jacks so as to pass through the jacks, and the draw hooks are pushed and leveled after passing through the jacks so as to enter the lower hook grooves C and are screwed firmly through bolts.

The utility model discloses set out from the theory that overhead plate is last, all pipelines are under, the insulation construction and the overhead structure relatively independent that provide to realized layering, the district separation of water and electricity pipeline and heating pipeline by insulation construction, arrange the local crosspoint of water and electricity pipeline and place gap department between the thermal module, reached space multiplex's effect. The beneficial effects brought are:

1. the thickness occupied by the floor method is reduced. Taking a floor heating pipe at one floor and a water and electricity pipe at two floors of a conventional house as examples, wherein the pipe diameters are 20mm, the thickness of the floor can be reduced by 3 cm or more;

2. the assembly type ground can be disassembled, and particularly, the assembly type ground can be partially disassembled. When the overhead plate on the upper layer is locally disassembled as required, the cross part of the first layer of the ground heating pipe and the water and electricity pipeline can be exposed; when the water and electricity pipelines on the lower layer need to be maintained, replaced, shifted or added, the heat insulation module can be cut by changing the position, and the heat insulation material is filled back or the foam rubber is supplemented after the construction is finished. Thereby fully embodying the advantages of the assembled structure;

3. because the pipelines are all arranged below the overhead plate block and do not participate in bearing at all, the material density can be properly reduced to save the cost.

Claims (5)

1. A heating and heat-insulating structure is characterized by comprising a bottom heat-insulating plate and heat-insulating modules, wherein the bottom heat-insulating plate is laid on the ground, a wiring channel is cut on the bottom heat-insulating plate, the heat-insulating modules are laid above the bottom heat-insulating plate in a grid shape, spacing seams among the heat-insulating modules are aligned with the wiring channel and can contain water and electric pipelines, the corners of four adjacent heat-insulating modules are fixed through corner connectors, the groove of each heat-insulating module is laid with a heating pipeline, the inner bulge of each heat-insulating module is provided with a through hole, a supporting foot is installed at the required through hole, a chassis of the supporting foot is fixed on the ground, the lower end of a screw rod of the supporting foot is rotatably connected onto the chassis, the upper end of the screw rod is in threaded connection with a nut, the nut is fixedly sleeved with a bearing tray, the bearing tray comprises four convex corners, the four convex corners are provided with upper threaded holes, and a cross-shaped lower concave part is formed between the four convex corners, screw hole down is seted up at four tip of the concave part down of cross form, sets up the jack that supplies the drag hook to wear to establish between the connection protruding and the corresponding concave part between the outer fringe of four convex corner portions, and this drag hook is the Z form, and the upper end of this drag hook is through jack insert on the concave part and the crimping screw hole top down, and the lower extreme of this drag hook stretches into the bottom groove of heat preservation module.

2. The heating insulation structure according to claim 1, wherein the insulation module has a rectangular shape, the heat preservation module comprises corner protrusions, side protrusions and inner protrusions, wherein the corner protrusions, the side protrusions and the inner protrusions are in interval longitudinal and transverse alignment, to form a wiring groove for laying heating pipelines in a grid shape, the top wall of the corner bulge is provided with an upper mounting groove A with an L-shaped section, the bottom wall of the base is provided with a lower groove A with an L-shaped section, a vertical jack matched with the corner plug connector is arranged between the upper mounting groove A and the lower groove A, a vertical arc-shaped groove is arranged on the side wall of the side part bulge, an upper mounting groove B is arranged at the upper end of the side wall of the arc-shaped groove, a lower hook groove B is arranged at the lower end of the side wall of the arc-shaped groove, a vertical round through hole is formed in the middle of the inner protrusion, an upper mounting groove C is formed in the upper end of the side wall of the round through hole, and a lower hook groove C is formed in the lower end of the side wall of the round through hole.

3. The heating insulation structure according to claim 2, wherein four protrusions are provided at the intersections of the longitudinal and transverse wiring grooves of the insulation module, and the four protrusions are formed in a cross-shaped slit for insertion and positioning of the heating pipe.

4. The heating and heat-insulating structure according to claim 2 or 3, wherein the corner plug connector comprises a top plate, four plug legs are arranged below the top plate, the four plug legs are matched with the vertical insertion holes at the corners of the heat-insulating module, and the top plate is provided with a hand-holding hole.

5. The heating insulation structure of claim 4 wherein the insert leg comprises two spaced apart sub-legs.

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