CN219828971U - Pavement structure of flexible floor heating heat exchanger - Google Patents

Abstract

The utility model relates to a paving structure of a flexible floor heating heat exchanger, which is arranged on a floor slab. The utility model has the technical advantages of simple structure, convenient construction and safe use.

Description

Pavement structure of flexible floor heating heat exchanger

Technical Field

The utility model relates to a paving structure of a flexible floor heating heat exchanger, which is applicable to the technical field of floor heating equipment.

Background

Common ground heating modes include three modes of electric heating, water heating and air energy heating, wherein a flexible electric heating film is used in the electric heating mode, but the form of a flexible substrate is rarely seen in the water heating and air energy heating modes. The main reason is that the diameter of the heat exchange tube used in the existing water heating mode and air energy heating is larger and is usually larger than 4mm, so that the heat exchange tube cannot be in a flexible form. Chinese patent application 202011358048.1 discloses a building floor structure with warm up function, from bottom to top includes floor layer, sound insulation layer, warms up heat preservation mixed layer, heat conduction mortar layer and decorative cover layer in proper order, warms up heat preservation mixed layer and sets up the water pipe of warming up in the recess including foam concrete layer, beans, concave heat preservation strip that is equipped with the recess, concave heat preservation strip adopts flexible heat preservation material and sets up on the sound insulation layer with the water pipe arrangement mode of predetermineeing. In this patent application, although the concave heat-insulating strip is made of a flexible heat-insulating material, the concave heat-insulating strip is still required to be arranged in a rigid foam concrete layer, and a rigid heat-conducting mortar layer is further arranged at the upper part. The building floor disclosed by the patent has very complex structure, complex construction procedure and long construction period.

On the other hand, the flexible heat exchanger is small in size, so that the strength is low, a reasonable design of a protection structure, particularly a protection structure of an edge part is needed when the flexible heat exchanger is installed on the ground for heating, otherwise, the heat exchanger is easy to damage, normal use of a user is not affected after paving, for example, tripping walking personnel cannot occur, indoor equipment placement cannot be greatly affected, and the like.

Therefore, a paving structure of a floor heating heat exchanger with simple structure, convenient construction and safe use is needed in the prior art.

Disclosure of Invention

The utility model provides a paving structure of a flexible floor heating heat exchanger, which can realize the technical effects of simple structure, convenient construction and safe use by reasonably designing an edge protection structure of the heat exchanger.

The utility model relates to a paving structure of a flexible floor heating heat exchanger, which is arranged on a floor slab and comprises a plurality of rows of parallel pipelines and a flexible substrate, wherein the parallel pipelines are arranged on the flexible substrate, gas collecting pipes are respectively arranged at two ends of the parallel pipelines, the parallel pipelines are in sealing connection with the gas collecting pipes, and the gas collecting pipes are arranged at the bottom of a wall body.

The edge positions of the flexible floor heating heat exchanger and the gas collecting tube in the vertical direction can be provided with a protection strip, and the protection strip can be a metal section or a bending metal plate or a plastic piece; the protection strip can be fixed on the floor slab through the fixing piece, or the protection strip can be stuck and arranged on the floor slab; the end part of the flexible floor heating heat exchanger can be provided with a bending part, and the bending part can be covered in the skirting line; the outside of gas collecting tube can be overlapped and is equipped with the protective sheath, can also be equipped with the decorative layer on the heat exchanger is warmed up to the flexibility, the decorative layer can with the heat exchanger integrated into one piece or separate shaping is warmed up to the flexibility.

The paving structure of the flexible floor heating heat exchanger has the following technical advantages:

(1) Because of the efficient heat exchange capacity of the flexible floor heating heat exchanger, the indoor local pavement can be realized, the heat exchange requirement can be met, the convenient installation can be realized without dismantling indoor fixed facilities for the occupied space, and the flexible floor heating heat exchanger can be bent and arranged according to actual requirements;

(2) The utility model can mount the gas collecting tube at the bottom of the wall body, such as in skirting line, to protect, and can also set up the protective strip at the side edge of the heat exchanger pavement, prevent from interfering the indoor personnel activity, can avoid the heat exchanger from being damaged; meanwhile, the gas collecting tube is arranged in the skirting line, so that the gas collecting tube is convenient to repair and maintain;

(3) The utility model can be sleeved with the protective sleeve on the gas collecting tube so as to form a whole body with strength at the end part of the gas collecting tube, the pipeline and the flexible base layer, and the protective sleeve can be further connected with the fastener in a reinforcing way to form a whole assembly mechanism.

Drawings

Fig. 1 is a schematic diagram of a paved surface of a flexible floor heating heat exchanger of the utility model.

Fig. 2 is a schematic side view of the flexible floor heating heat exchanger of the present utility model.

Fig. 3 is an assembled schematic view of the air collection tube end of the flexible floor heating heat exchanger.

Fig. 4 is an assembled schematic view of a side edge portion of the floor-heating heat exchanger.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present utility model more apparent, embodiments of the present utility model will be described in detail hereinafter with reference to the accompanying drawings. It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be arbitrarily combined with each other.

As shown in fig. 1-4, there is shown a schematic layout of a flexible floor heating heat exchanger 1 of the present utility model in a room. The flexible floor heating heat exchanger 1 can be directly paved or stuck on the floor slab 6. The flexible floor heating heat exchanger 1 comprises a plurality of rows of parallel pipelines 13 and a flexible substrate 11, wherein the parallel pipelines 13 are arranged on the flexible substrate 11, gas collecting pipes 12 are respectively arranged at two ends of the parallel pipelines 13, and the parallel pipelines 13 are in sealing connection with the gas collecting pipes 12. The heat exchange medium flows in from one of the gas collecting pipes in a converging way, flows in parallel between the parallel pipelines, and then flows out from the gas collecting pipes in a converging way.

The parallel pipeline 13 may be embedded or embedded in the flexible substrate 11, or may be partially exposed from the flexible substrate 11. It will be apparent to those skilled in the art that good thermal contact between the parallel tubing 13 and the flexible substrate 11 is required to meet the heat transfer requirements. The gas collecting pipe 12 may be further connected to an outdoor heat exchanger unit, and a heating cycle is realized by a circulation of a refrigerant. The equivalent diameter of the inner diameter of the parallel pipeline is 0.1-4 mm, preferably 0.2-2.0 mm, for example, 1.0mm. The smaller the pipe diameter is, the thinner the pipe wall of the heat exchanger is, the better flexibility is realized, the folding, the transportation and the installation are convenient, the larger heat exchange area can be obtained, the heat exchange effect is improved, and the material cost is reduced.

The flexible floor heating heat exchanger 1 can be further provided with the decorative layer 4, so that the flexible floor heating heat exchanger 1 can be protected on one hand, and the indoor ground can be more attractive on the other hand. The decorative layer 4 may be selected from flexible carpeting or thinner floors and the like to reduce the thermal resistance created on the flexible floor heating heat exchanger 1. The decorative layer 4 can be laid separately from the flexible floor heating heat exchanger 1, or can be laid integrally, i.e. the decorative layer 4 can be arranged integrally with or separately from the flexible floor heating heat exchanger 1.

The gas collecting tube 12 of the flexible floor heating heat exchanger 1 is large in size, is not suitable for being directly buried in the movable position of indoor personnel, and can be respectively arranged close to the wall body 5. Because the indoor width may be inconsistent, it is difficult to realize that the gas collecting tube 12 is all close to the wall 5, if the gas collecting tube 12 is directly placed on the floor 6 without protection, because the diameter of the gas collecting tube is large, besides uncomfortable feeling of walking feet of indoor resident personnel, the gas collecting tube is more easy to trip, and meanwhile, the flexible floor heating heat exchanger 1 is damaged. Accordingly, the present utility model protects the header 12 by being installed at the bottom of the wall body, for example, in the skirting line 2. It will be appreciated by those skilled in the art that the header may be embedded in a recess in the bottom wall or in a separately provided mounting box without the provision of skirting lines.

The flexible floor heating heat exchanger has high heat exchange efficiency, so that the floor heating heat exchanger does not need to be fully paved and only needs to be locally paved in a room. As shown in fig. 1, the flexible floor heating heat exchanger is laid in a range between the protection strips 3. The protection strip 3 is arranged at the edge position of the flexible floor heating heat exchanger 1 in the vertical direction with the gas collecting tube 12 so as to realize the protection of the edge position. That is, the protection strip is provided at an edge position of the flexible floor heating heat exchanger laying range, which is shown in fig. 1 at an edge position in the longitudinal direction of the flexible floor heating heat exchanger 1. Because the thickness of the flexible floor heating protector 1 is very thin, the protection strip 3 can be made by adopting a metal section or a plated metal plate or plastic extrusion molding mode, so as to form a very thin protection structure. The protection strip 3 can be fixed on the floor slab 6 by means of fixing pieces 7 such as screws or adhesives to form an integral protection structure of the flexible floor heating heat exchanger 1, so that indoor people cannot trip over or damage the flexible floor heating heat exchanger when walking. In the present utility model, the metal profile means a profile which is integrally preformed, and the folded metal plate means a sandwich plate structure formed by folding the metal plate, and it is understood by those skilled in the art that the two are different members and have common meanings.

As shown in fig. 2-3, the laying length of the flexible floor heating heat exchanger 1 can be longer than the length of the indoor space, the flexibility of the flexible floor heating heat exchanger 1 is fully utilized, and the redundant dimension is hidden in the skirting line 2 through bending and detouring. The gas collecting tube 12 of the flexible floor heating heat exchanger 1 is provided with a plurality of connection points connected with the pipeline 13. When the refrigerant leaks, the leakage point can be detected only by detaching the skirting line 2 for inspection, and the maintenance is convenient. In order to further protect the flexible floor heating components, a protective sleeve 14 can be sleeved on the gas collecting tube 12, so that the gas collecting tube 12, the pipeline 13 and the flexible base layer 11 form a whole with strength at the end. The protective sleeve 14 may be made of a flexible and temperature resistant organic material such as silicone rubber, and may be reinforced with screws or the like to form a tight fitting structure.

Although the embodiments of the present utility model are described above, the embodiments are only used for facilitating understanding of the present utility model, and are not intended to limit the present utility model. Any person skilled in the art can make any modification and variation in form and detail without departing from the spirit and scope of the present disclosure, but the scope of the present disclosure is still subject to the scope of the appended claims.

Claims (10)

1. The utility model provides a structure of mating formation of heat exchanger is warmed up to flexibility, the heat exchanger is warmed up to flexibility sets up on the floor, its characterized in that, the heat exchanger is warmed up to flexibility includes multirow parallel pipeline and flexible basement, parallel pipeline sets up on the flexible basement, the both ends of parallel pipeline are equipped with the gas collecting tube respectively, parallel pipeline with gas collecting tube sealing connection, the gas collecting tube sets up the bottom position at the wall body.

2. The paving structure of the flexible floor heating heat exchanger according to claim 1, wherein a protection strip is arranged at the edge position of the flexible floor heating heat exchanger in the vertical direction with the gas collecting tube.

3. The paving structure of a flexible floor heating heat exchanger according to claim 2, wherein the protection strip is a metal section or a folded metal plate or a plastic piece.

4. A flexible floor heating heat exchanger pavement structure according to claim 2 or 3, wherein the protection strips are fixed on the floor slab by fixing members or the protection strips are stuck and fixed on the floor slab.

5. The paving structure of a flexible floor heating heat exchanger according to claim 1, wherein a bending part is formed at an end part of the flexible floor heating heat exchanger, and the bending part is covered in a skirting line.

6. A flexible floor heating heat exchanger pavement structure according to any one of claims 1-3 and 5, wherein a protective sleeve is sleeved outside the gas collecting tube.

7. The structure for paving a flexible floor heating heat exchanger according to any one of claims 1 to 3 and 5, wherein a decorative layer is further provided on the flexible floor heating heat exchanger.

8. The structure of claim 7, wherein the decorative layer is integrally formed with the heat exchanger or separately formed from the heat exchanger.

9. The structure for paving a flexible floor heating heat exchanger according to any one of claims 1 to 3, 5 and 8, wherein the equivalent diameter of the flexible floor heating heat exchanger is 0.1 to 4mm.

10. The paving structure of the flexible floor heating heat exchanger according to claim 9, wherein the equivalent diameter of the flexible floor heating heat exchanger is 0.2-2 mm.