CN219494212U - Assembled frequency conversion energy-saving electric floor heating - Google Patents

Abstract

The utility model relates to the technical field of floor heating, and discloses an assembled variable-frequency energy-saving electric floor heating, which comprises a decorative plate, wherein two opposite side wall surfaces of the decorative plate are fixedly connected with skirt edges, the two skirt edges are mutually clamped, a detachable mounting assembly is arranged at the bottom of the decorative plate, the mounting assembly comprises a contact part, a supporting part, a coil pipe channel, a mounting hole and a clamping piece, the contact part and the supporting part are made of different materials, the contact part and the decorative plate can be made of metal materials with high heat conductivity, such as iron or copper, so that the heat transfer effect of an upward space is improved, the contact part is contacted with the ground, a heat insulation material, such as a foam board, is adopted for reducing heat loss, the decorative plate is clamped with the contact part, different decorative patterns can be manufactured when the decorative plate is produced after a pipeline is mounted with the contact part and the supporting part, the decorative plate is more matched according to customer selection, modular production is realized, and the efficiency is high during installation.

Description

Assembled frequency conversion energy-saving electric floor heating

Technical Field

The utility model belongs to the technical field of floor heating, and particularly relates to an assembled variable-frequency energy-saving electric floor heating.

Background

The prior art discloses an assembled electric floor heating integrated system (CN 202221137473.2), which relates to the field of assembled floor heating and comprises a floor heating template; square positioning blocks are arranged on the upper surface of the floor heating template at equal intervals, mounting holes are formed in the middle of each square positioning block, face brick link elements are inserted into the mounting holes in an inserting mode, and electric heating cables are wound and connected at gaps of the square positioning blocks;

in the prior art, through the base of integral type, with coil pipe or resistance wire card in the passageway of base, realize the installation to heating element, and in order to reduce the heat transfer to ground, the base adopts the poor plastics material of thermal conductivity more, has also restricted the heat transfer of heating element to the space above ground simultaneously, has restricted heating efficiency, exists certain optimizable space.

The present utility model has been made in view of this.

Disclosure of Invention

In order to solve the technical problems, the utility model adopts the basic conception of the technical scheme that:

the utility model provides an energy-conserving electricity of assembled frequency conversion is warmed up, includes the plaque, the equal fixedly connected with shirt rim of the two opposite side wall surfaces of plaque, two mutual joint of shirt rims, the bottom of plaque sets up detachable installation component, installation component includes contact portion, supporting part, coil pipe passageway, mounting hole and joint spare, the mounting hole is all seted up to the wall surface of contact portion and supporting part, contact portion and supporting part pass through screw locking, coil pipe passageway is offered jointly to the wall surface that contact portion and supporting part are laminated each other, the water pipe passes coil pipe passageway and forms crooked route, the top surface fixed connection joint spare of contact portion, contact portion passes through joint spare and plaque joint, the wall surface of supporting part still sets up insulation construction.

In a preferred embodiment of the present utility model, the contact portion and the support portion are rectangular plates with equal size, the cross section of the coil channel is circular, two end surfaces of the coil channel are respectively located on two opposite side wall surfaces of the contact portion, and the coil channel forms a serpentine curved path between the contact portion and the support portion.

As a preferred embodiment of the utility model, the mounting hole on the top surface of the contact part comprises an upper round hole and a lower round hole, the diameter of the upper round hole of the mounting hole is larger than that of the lower round hole, and the depth of the mounting hole on the top surface of the support part is smaller than the thickness of the support part.

As a preferred embodiment of the utility model, the clamping piece is provided with a cylindrical part and a sphere part, the sphere and the cylinder are integrally formed, the bottom surface of the ornamental plate is provided with a hole in interference fit with the sphere, and the clamping piece is clamped into the hole.

As a preferred embodiment of the utility model, the heat insulation structure comprises a heat insulation cavity, a first partition and a second partition, wherein the heat insulation cavity is formed in the support part, and the first partition and the second partition are both positioned in the heat insulation cavity and form independent cavities.

As a preferred embodiment of the present utility model, the height of the heat-insulating cavity is smaller than the thickness of the supporting portion, the coil channel is located above the heat-insulating cavity, and the coil channel is not communicated with the heat-insulating cavity.

As a preferable implementation mode of the utility model, the first partition and the second partition are plates with the same height as the heat preservation cavity, the second partition is perpendicular to the first partition, the heat preservation cavity is provided with a plurality of first partitions in parallel, a plurality of second partitions are arranged between every two adjacent first partitions, and the heat preservation cavity is partitioned into a plurality of independent rectangular cavities by the first partition and the second partition.

Compared with the prior art, the utility model has the following beneficial effects:

1. the contact part is placed on the top surface of the supporting part, the screw penetrates through the mounting hole to compress the contact part on the top surface of the supporting part, the coil pipe channel of the contact part and the wall surface of the supporting part is closed, the installation of the circulating pipe is realized, the decorative plate is aligned to the contact part, the clamping piece is clamped with the decorative plate to realize the installation of a single module, the contact part and the supporting part are made of different materials, the contact part is in contact with the decorative plate, the contact part can be made of metal materials with high thermal conductivity, such as iron or copper, the heat transfer effect of an upward space is improved, the contact part is in contact with the ground, in order to reduce heat loss, a heat insulation material such as a foam board can be adopted, the decorative plate is clamped with the contact part, different decorative patterns can be manufactured when the decorative plate is produced after the pipeline is installed with the contact part and the supporting part, the decorative plate is more matched with higher efficiency, and is simple and rapid in the process.

2. Through setting up the heat preservation chamber for form certain unsettled part between supporting part and the ground, reduce the heat conduction of supporting part to the ground, cut off with the second through setting up first, separate the heat preservation chamber and be a plurality of independent cavities, when cutting the supporting part, the seal of contact portion is kept to the maximum and then the guarantee heat preservation effect, and first cuts off and cuts off simultaneously can ensure the bearing effect of the unsettled part of supporting part, prevents that the supporting part warp and subsides.

The following describes the embodiments of the present utility model in further detail with reference to the accompanying drawings.

Drawings

In the drawings:

FIG. 1 is a perspective view of the present utility model;

FIG. 2 is a schematic view of the installation of the contact and support portions of the present utility model;

FIG. 3 is a cutaway view of a support portion of the present utility model;

fig. 4 is an enlarged view of fig. 3 a in accordance with the present utility model.

In the figure: 10. a decorative plate; 11. a skirt edge; 20. a contact portion; 21. a support part; 22. a coiled tube passageway; 23. a mounting hole; 24. a clamping piece; 30. a heat preservation cavity; 31. a first partition; 32. and a second partition.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions in the embodiments will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and the following embodiments are used to illustrate the present utility model.

Embodiment one: 1-3, including plaque 10, plaque 10 opposite both sides wall all fixedly connected with shirt rim 11, two shirt rims 11 joint each other, plaque 10's bottom sets up detachable installation component, the installation component includes contact portion 20, supporting part 21, coil pipe passageway 22, mounting hole 23 and joint spare 24, mounting hole 23 is all offered to contact portion 20 and supporting part 21's wall, contact portion 20 and supporting part 21 pass through the screw locking, coil pipe passageway 22 is offered jointly to contact portion 20 and supporting part 21's wall that laminates each other, the water pipe passes coil pipe passageway 22 and forms the crooked route, contact portion 20's top surface fixed connection joint spare 24, contact portion 20 passes through joint spare 24 and plaque 10 joint, supporting part 21's wall still sets up insulation construction, contact portion 20 and supporting part 21 are equi-sized rectangular plate, the section of the coil pipe channel 22 is circular, two end faces of the coil pipe channel 22 are respectively positioned on two opposite side wall faces of the contact part 20, the coil pipe channel 22 forms a snake-shaped bending path between the contact part 20 and the supporting part 21, a mounting hole 23 on the top surface of the contact part 20 comprises an upper round hole and a lower round hole, the diameter of the upper round hole of the mounting hole 23 is larger than that of the lower round hole, the depth of the mounting hole 23 on the top surface of the supporting part 21 is smaller than the thickness of the supporting part 21, the clamping piece 24 is provided with a cylindrical part and a sphere part, the sphere and the cylinder are integrally formed, the bottom surface of the decorative plate 10 is provided with a hole in interference fit with the sphere, the clamping piece 24 is clamped into the hole, in the embodiment, the decorative plate 10 is any one of a square plate or a rectangular plate, the contact part 20, the supporting part 21 and the decorative plate 10 are equal, the supporting part 21 is paved on the ground, the circulating pipe is led in one port of the coil pipe channel 22 to form a bend in the coil pipe channel 22, then led out from the other port of the coil pipe channel 22, the contact part 20 is placed on the top surface of the supporting part 21, a screw penetrates through the mounting hole 23 to press the contact part 20 on the top surface of the supporting part 21, the coil pipe channel 22 on the wall surfaces of the contact part 20 and the supporting part 21 is closed, the circulating pipe is mounted, the decoration plate 10 is aligned to the contact part 20, the clamping piece 24 is clamped with the decoration plate 10 to realize the mounting of a single module, the circulating pipe is required to be connected with the port of the electric water heater, the circulating pipe is completely connected with the water return port of the electric water heater after being formed in the coil pipe channels 22 of the contact part 20 and the supporting part 21, the contact part 20 and the supporting part 21 are arranged to be detachable, the circulating pipe is convenient to mount, the contact part 20 and the supporting part 21 are made of different materials, the contact part 20 and the decoration plate 10 can be contacted with the floor by adopting metal materials with high thermal conductivity, such as iron or copper, in order to reduce heat loss, the heat insulation materials such as foam plates can be adopted, the decoration plate 10 is clamped with the contact part 20, the mounting of the contact part 10, after the pipeline and the installation of the decoration plate 10, the pipeline and the electric water heater is required to realize the heat supply function.

Embodiment two: as shown in fig. 3-4, the assembled variable-frequency energy-saving electric floor heating device comprises a heat preservation cavity 30, a first partition 31 and a second partition 32, wherein the heat preservation cavity 30 is formed in the support portion 21, the first partition 31 and the second partition 32 are both positioned in the heat preservation cavity 30 and form independent cavities, the height of the heat preservation cavity 30 is smaller than the thickness of the support portion 21, a coil channel 22 is positioned above the heat preservation cavity 30 and is not communicated with the heat preservation cavity 30, the first partition 31 and the second partition 32 are plates with the same height as the heat preservation cavity 30, the second partition 32 is perpendicular to the first partition 31, the heat preservation cavity 30 is parallel to the first partition 31, a plurality of second partitions 32 are arranged between every two adjacent first partitions 31, the first partition 31 and the second partition 32 jointly partition the heat preservation cavity 30 into a plurality of independent rectangular cavities, on the basis of realizing the effect, a certain part is formed between the support portion 21 and the ground through the arrangement of the heat preservation cavity 30, the heat conduction from the support portion 21 to the ground is reduced, the heat conduction from the support portion 21 to the ground is ensured through the arrangement of the first partition 31 and the second partition 31, the heat preservation effect of the heat preservation cavity 21 is prevented from being collapsed, and the heat preservation effect of the second partition 21 is guaranteed, and the heat preservation effect of the heat preservation portion is prevented from being deformed by the second partition 21, and the heat preservation effect is guaranteed, and the heat preservation effect of the heat preservation portion is kept to be the independent by the heat preservation portion.

Working principle: the decoration plate 10 is any one of a square plate or a rectangular plate, the contact part 20 and the supporting part 21 are as large as the decoration plate 10, the supporting part 21 is paved on the ground, the circulating pipe is led in from one port of the coil pipe channels 22 to form bending in the coil pipe channels 22 and then led out from the other port of the coil pipe channels 22, the contact part 20 is placed on the top surface of the supporting part 21, a screw passes through the mounting hole 23 to compress the contact part 20 on the top surface of the supporting part 21, the coil pipe channels 22 on the wall surfaces of the contact part 20 and the supporting part 21 are closed to realize the mounting of the circulating pipe, the decoration plate 10 is aligned with the contact part 20, the clamping piece 24 is clamped with the decoration plate 10 to realize the mounting of a single module, the circulating pipe is connected with the ports of the electric water heater, the circulating pipe is connected with the water return port of the electric water heater after being completely formed in the coil pipe channels 22 of the contact parts 20 and the supporting part 21, through setting contact portion 20 and supporting part 21 to detachable, be convenient for install the circulating pipe, contact portion 20 and supporting part 21 adopt different materials, contact portion 20 and plaque 10 contact can adopt the metal material that the thermal conductivity is high, like iron or copper, contact portion 20 and ground contact, in order to reduce the heat loss, can adopt insulation material such as the cystosepiment, set up heat preservation chamber 30 for form certain unsettled part between supporting part 21 and the ground, reduce the heat conduction of supporting part 21 to the ground, through setting up first wall 31 and second wall 32, separate heat preservation chamber 30 and be a plurality of independent cavities, when cutting supporting part 21, the seal of furthest keep contact portion 20 and then guarantee the heat preservation effect, first wall 31 and second wall 32 can ensure the bearing effect of supporting part 21 part unsettled simultaneously.

Embodiment III: the electric floor heating device is provided with the high heating wire and the low heating wire, and the indoor temperature or the voltage is measured through the multi-power temperature controller, so that the intelligent starting of high power or low power is realized, and the energy and the electricity are saved.

It will be understood that the utility model has been described in terms of several embodiments, and that various changes and equivalents may be made to these features and embodiments by those skilled in the art without departing from the spirit and scope of the utility model. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the utility model without departing from the essential scope thereof. Therefore, it is intended that the utility model not be limited to the particular embodiment disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.

Claims (7)

1. The utility model provides an energy-conserving electricity of assembled frequency conversion warms up, includes plaque (10), the equal fixedly connected with shirt rim (11) of the two opposite side wall of plaque (10), and two mutual joint of shirt rim (11), a serial communication port, the bottom of plaque (10) sets up detachable installation component, installation component includes contact portion (20), supporting part (21), coil pipe passageway (22), mounting hole (23) and joint spare (24), mounting hole (23) are all seted up to the wall of contact portion (20) and supporting part (21), contact portion (20) and supporting part (21) pass through the screw locking, coil pipe passageway (22) are offered jointly to the wall that contact portion (20) and supporting part (21) are laminated each other, the water pipe passes coil pipe passageway (22) and forms the crooked route, the top surface fixed connection joint spare (24) of contact portion (20) pass through joint spare (24) and plaque (10) joint, the wall of supporting part (21) still sets up insulation construction.

2. The assembled variable frequency energy-saving electric floor heating according to claim 1, wherein the contact part (20) and the supporting part (21) are rectangular plates with equal size, the cross section of the coil pipe channel (22) is circular, two end faces of the coil pipe channel (22) are respectively positioned on two opposite side wall surfaces of the contact part (20), and the coil pipe channel (22) forms a serpentine bending path between the contact part (20) and the supporting part (21).

3. The assembled variable frequency energy-saving electric floor heating according to claim 1, wherein the mounting hole (23) on the top surface of the contact part (20) comprises an upper round hole and a lower round hole, the diameter of the upper half round hole of the mounting hole (23) is larger than that of the lower half round hole, and the depth of the mounting hole (23) on the top surface of the supporting part (21) is smaller than the thickness of the supporting part (21).

4. The assembled variable frequency energy-saving electric floor heating according to claim 1, wherein the clamping piece (24) is provided with a cylindrical part and a spherical part, the spherical part and the cylindrical part are integrally formed, a hole in interference fit with the spherical part is formed in the bottom surface of the decorative plate (10), and the clamping piece (24) is clamped into the hole.

5. The assembled variable frequency energy-saving electric floor heating according to claim 1, wherein the heat insulation structure comprises a heat insulation cavity (30), a first partition (31) and a second partition (32), the heat insulation cavity (30) is formed inside the supporting portion (21), and the first partition (31) and the second partition (32) are both located in the heat insulation cavity (30) and form independent cavities.

6. The assembled variable frequency energy-saving electric floor heating according to claim 5, wherein the height of the heat preservation cavity (30) is smaller than the thickness of the supporting part (21), the coil pipe channel (22) is located above the heat preservation cavity (30), and the coil pipe channel (22) is not communicated with the heat preservation cavity (30).

7. The assembled variable-frequency energy-saving electric floor heating system according to claim 5, wherein the first partition (31) and the second partition (32) are plates with the same height as the heat preservation cavity (30), the second partition (32) is perpendicular to the first partition (31), the heat preservation cavity (30) is provided with a plurality of first partitions (31) in parallel, a plurality of second partitions (32) are arranged between every two adjacent first partitions (31), and the first partitions (31) and the second partitions (32) jointly partition the heat preservation cavity (30) into a plurality of independent rectangular chambers.