CN217400222U - Heating raised floor - Google Patents

Abstract

The utility model discloses a heating raised floor, which comprises a heat preservation module, supporting legs and a raised flat plate, wherein the heat preservation module comprises a rectangular substrate, a plurality of aligned arc vertical grooves A are arranged on the opposite side walls of the rectangular substrate, a side arc bulge loop coaxial with the grooves A is arranged on the top wall of the rectangular substrate close to and around the grooves A, the two side walls of the side arc bulge loop are vertically flush with the side walls of the rectangular substrate, a convex column is arranged on one of the two side walls of the side arc bulge loop in an extending way, a slot corresponding to the convex column is arranged on the other one in a concave way, the convex column and the slot both extend to the rectangular substrate, the two side walls at the corner of the rectangular substrate are provided with arc vertical grooves B, a corner arc bulge loop coaxial with the grooves B is arranged on the top wall of the rectangular substrate close to and around the grooves B, the two side walls of the corner arc bulge loop are vertically flush with the side walls of the rectangular substrate, the two side walls of the corner arc convex ring are provided with corresponding convex columns and slots, and the convex columns and the slots are alternately and correspondingly arranged around the side wall of the rectangular substrate.

Description

Heating raised floor

Technical Field

The utility model relates to a heating raised floor.

Background

The overhead flat plate of the heating overhead floor in the prior art is connected with the supporting ground feet, the heating module is arranged above the overhead flat plate, then a layer of balance plate is laid above the heating module, the balance plate is connected with the overhead flat plate, and then wood floors or ceramic tiles are laid on the balance plate, so that the overhead height is increased, the indoor use height is reduced, and the requirements of residents cannot be well met.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a floor is maked somebody a mere figurehead to heating, the heating module is located the dull and stereotyped below of makeing somebody a mere figurehead, has shortened built on somebody a mere figurehead height, has saved the cost.

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

a heating raised floor comprises a heat insulation module, supporting legs and a raised flat plate, wherein the heat insulation module comprises a rectangular base plate, a plurality of aligned arc vertical grooves A are arranged on opposite side walls of the rectangular base plate, a side arc convex ring coaxial with the grooves A is arranged on the top wall of the rectangular base plate close to and around the grooves A, two side walls of the side arc convex ring are vertically flush with the side walls of the rectangular base plate, a convex column is arranged on one of the two side walls of the side arc convex ring in an extending manner, a slot corresponding to the convex column is concavely arranged on the other side wall of the side arc convex ring, the convex column and the slot both extend to the rectangular base plate, arc vertical grooves B are arranged on two side walls at corners of a rectangular base body, a corner arc convex ring coaxial with the grooves B is arranged on the top wall of the rectangular base plate close to and around the grooves B, two side walls of the corner arc convex ring are vertically flush with the side walls of the rectangular base, and corresponding convex columns and slots are arranged on two side walls of the corner arc convex ring, the convex columns and the slots are alternately and correspondingly arranged around the side wall of the rectangular substrate, circular convex rings are uniformly arranged between the opposite arc convex rings at intervals, coaxial vertical round holes are arranged on the rectangular substrate corresponding to the through holes of the circular convex rings, the vertical round hole is smaller than the inner diameter of the circular convex ring, a longitudinal channel and a transverse channel for laying heating pipelines are formed between the adjacent convex rings, the diameter of the channel is matched with that of the laid pipeline, adjacent heat preservation modules are inserted and positioned through convex columns and inserting grooves, required supporting legs are arranged in a through hole and/or a hole cavity formed by splicing the heat preservation modules, the chassis of the supporting foot is fixed on the ground, the lower end of the screw rod of the supporting foot is rotatably connected on the chassis, the upper end of the screw rod is in threaded connection with a nut, a bearing tray is fixedly sleeved on the nut, a threaded hole is formed in the bearing tray, an overhead flat plate is connected through the threaded hole, and the overhead flat plate is located above the heat preservation module.

The side arc-shaped convex ring is 1/2 of the circular convex ring, and the corner arc-shaped convex ring is 1/2 of the side arc-shaped convex ring.

The length of the rectangular substrate is 2 times of the width of the rectangular substrate.

Four clamping protrusions are arranged on the top wall of the rectangular substrate at the intersection of the longitudinal channel and the transverse channel of the heat preservation module, the four clamping protrusions are in a cross seam shape, a heating pipeline penetrates through the four clamping protrusions and is inserted and positioned in a card mode, and a channel for the heating pipeline to turn is reserved between the four clamping protrusions and the corresponding protrusions.

The tray includes four convex angle portions, and four convex angle portions are equipped with the screw hole, form the concave part that is the cross form between four convex angle portions, open four tip of the concave part of cross form and establish down the mounting hole, set up the jack that supplies the drag hook to wear to establish between the convex and the concave part that corresponds of connection between the outer fringe of four convex angle portions, this drag hook is the Z form, the upper end of this drag hook is through jack insert on the concave part and the crimping mounting hole top under, the lower extreme of this drag hook stretches into the bottom groove of heat preservation module.

The overhead flat plate is rectangular, a vertical round hole A corresponding to the upper threaded hole is formed in the corner of the overhead flat plate, a concentric conical groove A is formed in the upper end of the vertical round hole, a conical gasket is inserted into the conical groove A to realize centering and positioning of the connecting bolt, and an inward gradually-reduced gap A is formed from the corner to the vertical round hole A; the side part of the overhead flat plate is provided with a vertical round hole B, the upper end of the vertical round hole B is provided with a concentric conical groove B, a conical gasket is inserted in the conical groove B, and an inward tapered gap B is formed from the side wall of the overhead flat plate towards the direction of the vertical round hole B.

The heating raised floor also comprises a header module spliced with the heating module, the header module comprises a rectangular base plate A, a plurality of aligned arc vertical grooves A 'are arranged on the opposite side walls of the rectangular base plate A, a side arc convex ring A coaxial with the groove A' is arranged on the top wall of the rectangular base plate close to and around the groove A ', the inner diameter of the side arc convex ring A is the same as that of the side arc convex ring, the outer diameter of the side arc convex ring A is smaller than that of the side arc convex ring, convex columns A and slots A which are alternately arranged are arranged on the side wall of the rectangular base plate A, arc vertical grooves B' are arranged on two side walls at the corners of a rectangular base body A, a corner arc convex ring A coaxial with the groove B 'is arranged on the top wall of the rectangular base plate close to and around the groove B', and two side walls of the corner arc convex ring A are vertically flush with the side wall of the rectangular base A, circular convex rings A are uniformly arranged between the opposite side arc convex rings A at intervals, coaxial vertical circular holes A are formed in the perforated rectangular base plate corresponding to the circular convex rings A, the vertical circular holes A are smaller than the inner diameter of the circular convex rings A, and a channel for laying heating pipelines is reserved between the adjacent convex rings A and can be used for laying a plurality of pipelines in parallel.

The utility model has the advantages that: the heat preservation module of the utility model is arranged below the overhead flat plate, so that the overhead height is reduced, and the utilization height is increased; meanwhile, a balance plate is omitted, so that the cost is saved; the disassembly and the assembly are convenient. The structure and the size of the heating module effectively ensure the flatness of the tiling of the heating module, and the splicing speed and the efficiency are high. The multi-pipeline is planned in a shape-walking way through the arrangement of the header module at the position where the pipeline is concentrated.

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 top view of the splicing of the thermal insulation modules.

Fig. 3 is a schematic top view of the thermal module.

Fig. 4 is a schematic perspective view of the thermal module.

Fig. 5 is a partially enlarged structural view of fig. 4.

Fig. 6 is a schematic structural view of an overhead flat plate.

Fig. 7 is a schematic structural view of the support foot.

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 figures 1 to 7, the heating raised floor of the present invention comprises a heat insulation module 1, supporting legs 2 and a raised plate 3, wherein the heat insulation module 1 comprises a rectangular base plate 11, a plurality of aligned arc vertical grooves A111 are arranged on the opposite side walls of the rectangular base plate 11, a side arc convex ring 12 coaxial with the groove A is arranged on the top wall of the rectangular base plate near and around the groove A111, two side walls of the side arc convex ring 12 are vertically aligned with the side walls of the rectangular base plate, a convex column 121 is extended on one of the two side walls of the side arc convex ring 12, a slot 122 matched with the convex column is concavely arranged on the other side wall, the convex column and the slot both extend to the rectangular base plate, arc vertical grooves B112 are arranged on the two side walls of the corner of the rectangular base body, a corner arc convex ring 13 coaxial with the groove B is arranged on the top wall of the rectangular base plate near and around the groove B, the two side walls of the arc convex ring are vertically aligned with the basic side walls of the rectangle, the two side walls of the corner arc-shaped convex rings are provided with corresponding convex columns 131 and slots 132, the convex columns and the slots are alternately and correspondingly arranged around the side wall of the rectangular substrate, the circular convex rings 14 are uniformly arranged between the opposite side arc-shaped convex rings 12 at intervals, the side arc-shaped convex rings are 1/2 of the circular convex rings, the corner arc-shaped convex rings are 1/2 of the side arc-shaped convex rings, the length of the rectangular substrate is 2 times of the width, preferably, the size of the heating module is 60X120cm, and the flat laying flatness of the rectangular substrate is effectively ensured; a longitudinal channel and a transverse channel for laying heating pipelines are formed between the adjacent convex rings, the channel is matched with the diameter of the laid pipelines, four clamping protrusions 15 are arranged on the top wall of a rectangular base plate at the intersection of the longitudinal pipeline and the transverse pipeline of the heat insulation module, the four clamping protrusions are in a cross seam shape, the heating pipelines 4 are arranged in a penetrating mode and positioned in a inserting mode, and channels for turning the heating pipelines are reserved between the four clamping protrusions and the corresponding protrusions;

a coaxial vertical round hole is formed in a perforated rectangular substrate corresponding to the circular convex ring 14, the vertical round hole is smaller than the inner diameter of the circular convex ring, adjacent heat preservation modules are inserted and positioned through a convex column and a slot, a needed supporting leg 2 is installed in a hole cavity formed by perforation and/or splicing of the heat preservation modules, a chassis 21 of the supporting leg 2 is fixed on the ground, the lower end of a screw rod 22 of the supporting leg 21 is rotatably connected to the chassis 21, a nut 23 is screwed on the upper end of the screw rod 22, a bearing tray 24 is sleeved on the nut 23, a threaded hole is formed in the bearing tray 24, an overhead flat plate 3 is connected through the threaded hole, and the overhead flat plate 3 is located above the heat preservation modules 1.

The tray 24 includes four convex corner portions, and four convex corner portions are equipped with screw hole 241, form the lower concave part that is the cross form between four convex corner portions, open four tip of the lower concave part of cross form and establish mounting hole down, set up the jack 242 that supplies the drag hook 25 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 is Z form, the upper end of this drag hook is through the jack insert on the lower concave part and the crimping in mounting hole top down, the bottom groove of this drag hook stretches into the heat preservation module.

The overhead flat plate 3 is rectangular, a vertical round hole A31 corresponding to the upper threaded hole 241 is formed in the corner of the overhead flat plate, a concentric conical groove A32 is formed in the upper end of the vertical round hole, a conical gasket 33 is inserted into the conical groove A to realize centering and positioning of the connecting bolt 6, and an inward tapered gap A is formed from the corner to the vertical round hole A; a vertical round hole B is formed in the side portion of the overhead flat plate, a concentric conical groove B is formed in the upper end of the vertical round hole B, a conical gasket is inserted into the conical groove B, and an inward tapered opening groove B is formed in the side wall of the overhead flat plate towards the direction of the vertical round hole B. The overhead flat plate with the structure has low manufacturing cost and is convenient to form.

The heating overhead floor also comprises a collecting pipe module 5 spliced with the heating module, the collecting pipe module is used for laying a plurality of branched pipelines of the water distributor, the collecting pipe module 5 comprises a rectangular base plate A, a plurality of aligned arc vertical grooves A ' are arranged on the opposite side walls of the rectangular base plate A, a side arc convex ring A coaxial with the groove A ' is arranged on the top wall of the rectangular base plate close to and around the groove A ', the inner diameter of the side arc convex ring A is the same as that of the side arc convex ring, the outer diameter of the side arc convex ring A is smaller than that of the side arc convex ring, convex columns A and slots A which are alternately arranged are arranged on the side wall of the rectangular base plate A, the convex columns A are matched with each other in an inserting way, arc vertical grooves B ' are arranged on the two side walls at the corners of the rectangular base plate A, corner arc vertical grooves B ' are arranged on the top wall of the rectangular base plate A close to and around the groove B ', corner of the rectangular base plate A, corner arc convex rings A are coaxial with the grooves B ' are arranged on the top wall of the rectangular base plate A, the two side walls of the corner arc-shaped convex rings A are vertically flush with the side walls of the rectangular basic ring A, the circular convex rings A are uniformly arranged between the opposite side arc-shaped convex rings A at intervals, coaxial vertical round holes A are formed in the rectangular base plate corresponding to the through holes of the circular convex rings A, the vertical round holes A are smaller than the inner diameter of the circular convex rings A, a channel for laying heating pipelines is reserved between the adjacent convex rings, and the channel can be used for laying a plurality of pipelines in parallel.

Claims (7)

1. A heating raised floor is characterized by comprising a heat insulation module, supporting legs and a raised flat plate, wherein the heat insulation module comprises a rectangular base plate, a plurality of aligned arc-shaped vertical grooves A are arranged on opposite side walls of the rectangular base plate, a side arc-shaped convex ring coaxial with the grooves A is arranged on the top wall of the rectangular base plate close to and around the grooves A, two side walls of the side arc-shaped convex ring are vertically aligned with the side walls of the rectangular base plate, a convex column is arranged on one of the two side walls of the side arc-shaped convex ring in an extending manner, a slot corresponding to the convex column is arranged on the other side of the side arc-shaped convex ring in a recessed manner, the convex column and the slot both extend to the rectangular base plate, arc-shaped vertical grooves B are arranged on two side walls at corners of a rectangular base body, a corner arc-shaped convex ring coaxial with the grooves B is arranged on the top wall of the rectangular base plate close to and around the grooves B, two side walls of the corner arc-shaped convex ring are vertically aligned with the basic side walls of the rectangle, the two side walls of the corner arc convex rings are provided with corresponding convex columns and slots, the convex columns and the slots are alternately and correspondingly arranged around the side wall of the rectangular base plate, circular convex rings are uniformly arranged between the opposite side arc convex rings at intervals, coaxial vertical round holes are arranged on the perforated rectangular base plate corresponding to the circular convex rings, the vertical round holes are smaller than the inner diameter of the circular convex rings, longitudinal and transverse channels for laying heating pipelines are formed between the adjacent convex rings, the channels are matched with the diameter of the laid pipelines, the adjacent heat preservation modules are positioned by inserting and matching the convex columns and the slots, required supporting legs are arranged in the holes and/or the hole cavities formed by splicing the heat preservation modules, a chassis of the supporting legs is fixed on the ground, the lower end of a screw rod of the supporting legs is rotatably connected on the chassis, the upper end of the screw rod is screwed with a nut, a bearing tray is fixedly sleeved on the nut, and threaded holes are arranged on the bearing tray, the overhead flat plate is connected through the threaded hole and is positioned above the heat insulation module.

2. The heated raised floor defined in claim 1, wherein the side arcuate grommets are 1/2 of the circular grommets and the corner arcuate grommets are 1/2 of the side arcuate grommets.

3. The heated raised floor of claim 2, wherein the rectangular base panel has a length that is 2 times the width.

4. The heating raised floor according to claim 1, wherein four protrusions are provided on the top wall of the rectangular base plate at the intersection of the longitudinal and transverse channels of the heat insulation module, the four protrusions are in a cross-slit shape for the heating pipeline to pass through and to be inserted and positioned, and a channel for the heating pipeline to turn is provided between the four protrusions and the corresponding protrusion.

5. A heating raised floor according to claim 1, wherein the supporting tray comprises four convex corners, the four convex corners are provided with upper threaded holes, cross-shaped lower concave parts are formed among the four convex corners, lower mounting holes are formed at the four ends of the cross-shaped lower concave part, jacks for the drag hooks to penetrate are formed between the connecting convex parts between the outer edges of the four convex corners and the corresponding lower concave parts, the drag hooks are Z-shaped, the upper ends of the drag hooks are inserted into the lower concave parts through the jacks and are in compression joint with the upper parts of the lower mounting holes, and the lower ends of the drag hooks extend into the bottom grooves of the heat insulation modules.

6. The heating raised floor according to claim 1, wherein the raised flat plate is rectangular, a vertical round hole a corresponding to the upper threaded hole is formed at the corner of the raised flat plate, a concentric tapered groove a is formed at the upper end of the vertical round hole, a tapered gasket is inserted into the tapered groove a to realize centering and positioning of the connecting bolt, and a notch a gradually tapering inward is formed from the corner toward the vertical round hole a; a vertical round hole B is formed in the side portion of the overhead flat plate, a concentric conical groove B is formed in the upper end of the vertical round hole B, a conical gasket is inserted into the conical groove B, and an inward tapered opening groove B is formed in the side wall of the overhead flat plate towards the direction of the vertical round hole B.

7. The heated raised floor according to claim 1, further comprising a header module assembled with the heating module, the header module comprising a rectangular base plate A, the opposite side walls of the rectangular base plate A being provided with a plurality of aligned arc-shaped vertical grooves A ', the top wall of the rectangular base plate adjacent to and around the grooves A' being provided with side arc-shaped protrusions A coaxial with the grooves A ', the side arc-shaped protrusions A having the same inner diameter as the side arc-shaped protrusions, the side arc-shaped protrusions A having an outer diameter smaller than the outer diameter of the side arc-shaped protrusions, the side walls of the rectangular base plate A being provided with alternately arranged convex columns A and grooves A, the two side walls of the corners of the rectangular base plate A being provided with arc-shaped vertical grooves B', the top wall of the rectangular base plate A adjacent to and around the grooves B 'being provided with corner arc-shaped protrusions A coaxial with the grooves B', the two side walls of the corner arc-shaped protrusions A being vertically flush with the side walls of the rectangular base plate A, circular convex rings A are uniformly arranged between the opposite side arc convex rings A at intervals, coaxial vertical round holes A are formed in the perforated rectangular base plate corresponding to the circular convex rings A, the vertical round holes A are smaller than the inner diameter of the circular convex rings A, and a channel for laying heating pipelines is reserved between the adjacent convex rings A and can be used for laying a plurality of pipelines in parallel.

Images