CN114017842B - Modular installation design structure of pressure-sensitive temperature-control electric floor heating - Google Patents

Abstract

The invention discloses a modular installation design structure of a pressure-sensitive temperature-control electric floor heating, belonging to the technical field of architectural decoration, and comprising a heat-insulation board, wherein the heat-insulation board is fixedly arranged on a ground base layer; the overhead mechanism is positioned above the heat insulation plate, penetrates through the heat insulation plate and is fixedly installed on the ground base layer; a main cable wound around the insulation board; the heating floor mechanisms are clamped and mounted on the overhead mechanism, and are electrically connected with the main cable; according to the invention, the main cable is heated to ensure that a basic temperature exists in the space, personnel trample the floor body for a long time, the floor body feeds back the gravity to the pressure sensor, the auxiliary cable in the heat insulation box is heated to heat a local heating area of the floor body, the main cable is not required to operate at a large current for a long time, the electric energy is greatly saved, and the local heating requirement is also met.

Description

Modular installation design structure of pressure-sensitive temperature-control electric floor heating

Technical Field

The invention belongs to the technical field of architectural decoration, and particularly relates to a modular installation design structure of a pressure-sensing temperature-control electric floor heating.

Background

The electric floor heating is a heating mode that a heating cable with the allowable upper limit of 65 ℃ on the surface is buried in a floor, the heating cable is used as a heat source to heat the floor or a ceramic tile, and a temperature controller is used for controlling the room temperature or the ground temperature to realize ground radiation heating, and has the advantages of comfort, energy conservation, environmental protection, flexibility, no need of maintenance and the like.

Chinese patent (CN 201620590866.7) discloses a carbon fiber electric heating floor heating installation structure convenient for maintenance, which comprises: the base layer has adiabatic heat preservation on the base layer, the last reflectance coating that has of adiabatic heat preservation, install a set of carbon fiber conductive heating line between first installation brick and the second installation brick, the outer parcel of carbon fiber conductive heating line has high temperature resistant PVC insulating layer, metal aluminum plate protection heat dissipation layer has on the second installation brick, metal aluminum plate has heat-resisting fire-retardant fabric layer on the protection heat dissipation layer, heat-resisting fire-retardant fabric layer has the thermal radiation protection layer on, the waterproof layer has on the thermal radiation protection layer, floor tile has on the waterproof layer.

Chinese patent (CN 201820211076.2) discloses a building equipment based on energy-conserving ground heating of impulse type, including ground, ceramic tile, propulsion board, composite pressure sensor, central processing unit, set up movable supporting layer on the ground, movable supporting layer upper portion sets up the movable rail, set up the contact line in the movable rail, set up above the movable supporting layer the propulsion board, inside setting in the middle of the propulsion board central processing unit, the central processing unit next door sets up signal receiver, the central processing unit upper end sets up quick heat transfer layer, quick heat transfer layer middle part sets up heating coil.

Chinese patent (CN 201921951861.2) discloses an electric floor heating structure, relates to the technical field of electric floor heating structures, and aims to solve the problems that an existing electric floor heating structure is poor in safety performance and electric leakage is caused when the existing electric floor heating structure is pressed by heavy objects. The insulating layer is installed to the lower extreme of heat conduction carpet, the insulating layer splices with the heat conduction carpet and is connected, the heat-conducting layer is installed to the lower extreme of insulating layer, the heat-conducting layer splices with the insulating layer and is connected, the internally mounted of heat-conducting layer has the cable that generates heat, the wire net is installed to the lower extreme of heat-conducting layer, the wire net splices with the heat-conducting layer and is connected, thermal-insulated membrane is installed to the lower extreme of wire net, thermal-insulated membrane passes through the buckle with the wire net and is connected, the fuse is installed to the one end of cable that generates heat, the cable that generates heat passes through the buckle with the fuse and is connected.

At present, the electricity warms up all to be unified the power supply through singly choosing heating cable, and the region that heating cable passed through will obtain the same heat radiation, but to large-scale space, for example super big office area, carries out the isothermal control in large space and then needs heating cable's calorific capacity to remain very high throughout, and this just leads to the electric energy consumption to increase, can't carry out solitary temperature regulation and control according to the position that personnel concentrated.

Disclosure of Invention

The invention aims to: the modularized installation design structure of the pressure-sensing temperature-control electric floor heating system aims to solve the problems that the energy consumption is large and the temperature cannot be raised in a local space due to the fact that the temperature in a large space is raised and long-time large-current operation of a heating cable is needed, and accordingly the temperature is controlled.

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides a modularization installation design structure that pressure-sensitive accuse temperature electricity ground warms up, it includes:

the insulation board is fixedly arranged on the ground base layer;

the overhead mechanism is positioned above the heat insulation plate, penetrates through the heat insulation plate and is fixedly installed on the ground base layer;

a main cable wound around the insulation board;

the heating floor mechanisms are clamped and mounted on the overhead mechanism, and are electrically connected with the main cable;

and the pressure control mechanisms are fixedly arranged at the lower edge of the heating floor mechanism, abut against the overhead mechanism and are electrically connected with the heating floor mechanism.

As a further description of the above technical solution:

make somebody a mere figurehead mechanism includes many supports, many first fossil fragments and many second fossil fragments, the one end of support is passed heated board and fixed mounting are in on the ground basic unit, many first fossil fragments and many be perpendicular arrangement and fixed mounting in be between the second fossil fragments on the other end of support, adjacent two first fossil fragments and adjacent two enclose into the mounting groove between the second fossil fragments.

As a further description of the above technical solution:

the heating floor mechanism comprises a floor body, a heat preservation box and an auxiliary cable, wherein the heat preservation box is fixedly connected to the bottom surface of the floor body, the auxiliary cable is coiled in the heat preservation box, the auxiliary cable is electrically connected with the main cable, and the heat preservation box is clamped in the mounting groove.

As a further description of the above technical solution:

the pressure control mechanism comprises a pressure sensor and a plurality of elastic pieces, the pressure sensor is fixedly installed on the floor body, the pressure sensor is in contact with the first keel or the second keel, the pressure sensor is electrically connected with the auxiliary cable, the elastic pieces are fixedly installed on the first keel and the second keel, and the elastic pieces abut against the floor body.

As a further description of the above technical solution:

the elastic piece comprises a guide pillar, a guide sleeve and a spring, the guide pillar is fixedly installed on the first keel or the second keel, the guide pillar is arranged in the guide sleeve in a sliding mode and abuts against the floor body, the spring is arranged on the guide pillar and the guide sleeve in a sleeved mode, and the two opposite ends of the spring abut against the guide sleeve and the floor body respectively.

As a further description of the above technical solution:

lamp belts are wound around the floor body and electrically connected with the pressure sensors.

As a further description of the above technical solution:

the first keel or the second keel is provided with a limiting block, a gap is reserved between the limiting block and the floor body, and the thickness of the limiting block is not larger than that of the pressure sensor.

As a further description of the above technical solution:

and a flat pressing head is arranged at the end part of the guide pillar and is propped against the floor body.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. according to the invention, the main cable is used for heating to ensure that a basic temperature exists in the space, personnel trample the floor body for a long time, the floor body feeds back gravity to the pressure sensor, the auxiliary cable in the heat insulation box is used for heating to locally heat the area of the floor body, the main cable is not required to operate at a large current for a long time, electric energy is greatly saved, and the requirement of local heating is met.

2. According to the invention, a plurality of mounting grooves are formed by fixing a plurality of first keels and a plurality of second keels in a staggered manner, the first keels and the second keels are fixedly mounted on a ground base layer through a support, a heat preservation box is fixed on a floor body, auxiliary cables are coiled in the heat preservation box to form a modular heating floor mechanism, the heating floor mechanism is mounted in the mounting grooves, a press rod control mechanism is connected between the floor body and an overhead mechanism, the press rod control mechanism has a supporting effect on the floor body and collects the pressure on the floor body, the modular mounting is realized, and the construction operation is simple and convenient.

3. According to the floor, the guide post slides in the guide sleeve to abut against the floor body, when the floor body is trampled for a long time, the guide post slides along the guide sleeve under the action of the floor body, and the spring has an elastic damping effect on the sliding of the guide post, so that the floor body slightly sinks, and the pressure sensor obtains pressure.

Drawings

Fig. 1 is a schematic view of an overall structure of a modular installation design structure of a pressure-sensing temperature-control electric floor heating.

Fig. 2 is an exploded view of a modular installation design structure of a pressure-sensing temperature-control electric floor heating.

Fig. 3 is a schematic diagram of an internal structure of a modular installation design structure of a pressure-sensing temperature-control electric floor heating system.

Fig. 4 is a partially enlarged view of a portion a in fig. 3.

Fig. 5 is a schematic diagram of an internal structure of a modular installation design structure of a pressure-sensing temperature-control electric floor heating system.

Fig. 6 is a partially enlarged view of a portion B in fig. 5.

Illustration of the drawings:

1. a thermal insulation board; 2. a ground substrate; 3. an overhead mechanism; 31. a support; 32. a first keel; 33. a second keel; 4. a main cable; 5. a heating floor mechanism; 51. a floor body; 52. a heat preservation box; 53. a secondary cable; 6. a pressure control mechanism; 61. a pressure sensor; 62. an elastic member; 621. a guide post; 622. a guide sleeve; 623. a spring; 7. mounting grooves; 8. a light strip; 9. a limiting block; 10. and (7) flattening the pressure head.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention. It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined or explained in subsequent figures. In the description of the embodiments of the present invention, it should be noted that the terms "upper", "inner", and the like refer to orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that are conventionally arranged when the products of the present invention are used, and are used only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-6, the present invention provides a technical solution: the utility model provides a modularization installation design structure that pressure-sensitive accuse temperature electricity ground warms up, includes:

the insulation board 1 is fixedly arranged on the ground base layer 2;

the overhead mechanism 3 is positioned above the heat insulation board 1, and the overhead mechanism 3 penetrates through the heat insulation board 1 and is fixedly installed on the ground base layer 2;

a main cable 4 wound around the insulation board 1;

the heating floor mechanisms 5 are clamped and mounted on the overhead mechanism 3, and the heating floor mechanisms 5 are electrically connected with the main cable 4;

a plurality of pressure-sensitive control mechanisms 6 fixedly installed at the lower edge of the heating floor mechanism 5, wherein the pressure-sensitive control mechanisms 6 abut against the overhead mechanism 3, and the pressure-sensitive control mechanisms 6 are electrically connected with the heating floor mechanism 5;

the overhead mechanism 3 comprises a plurality of supports 31, a plurality of first keels 32 and a plurality of second keels 33, one ends of the supports 31 penetrate through the heat insulation board 1 and are fixedly installed on the ground base layer 2, the plurality of first keels 32 and the plurality of second keels 33 are vertically arranged and are fixedly installed at the other ends of the supports 31, and an installation groove 7 is defined by two adjacent first keels 32 and two adjacent second keels 33;

the heating floor mechanism 5 comprises a floor body 51, a heat preservation box 52 and an auxiliary cable 53, wherein the heat preservation box 52 is fixedly connected to the bottom surface of the floor body 51, the auxiliary cable 53 is wound in the heat preservation box 52, the auxiliary cable 53 is electrically connected with the main cable 4, the heat preservation box 52 is clamped in the mounting groove 7, when the pressure sensor 61 obtains a pressure value, the auxiliary cable 53 is communicated with the main cable 4 and obtains current, and the auxiliary cable 53 heats a local area of the floor body 51 to raise the temperature, so that the control of local space heating is realized;

the pressure-sensitive control mechanism 6 comprises a pressure sensor 61 and a plurality of elastic members 62, wherein the pressure sensor 61 is fixedly installed on the floor body 51, the pressure sensor 61 contacts the first keel 32 or the second keel 33, the pressure sensor 61 is electrically connected with the secondary cable 53, the plurality of elastic members 62 are fixedly installed on the first keel 32 and the second keel 33, and the plurality of elastic members 62 abut against the floor body 51;

the elastic element 62 comprises a guide post 621, a guide sleeve 622 and a spring 623, the guide post 621 is fixedly mounted on the first keel 32 or the second keel 33, the guide post 621 is slidably disposed in the guide sleeve 622, the guide post 621 abuts against the floor body 51, the spring 623 is disposed on the guide post 621 and the guide sleeve 622, opposite ends of the spring 623 abut against the guide sleeve 622 and the floor body 51, respectively, when the floor body 51 is stepped on for a long time, the floor body 51 acts on the guide post 621 to slide along the guide sleeve 622, and the spring 623 has an elastic damping effect on the sliding of the guide post 621, so that the floor body 51 has a slight sinking action, and the pressure sensor 61 obtains a pressure;

lamp strips 8 are wound around the floor body 51, the lamp strips 8 are electrically connected with the pressure sensor 61, and when the pressure sensor 61 obtains a pressure value, the lamp strips 8 supply power, so that the floor body 51 at the position is marked to be in a local heating mode;

the first keel 32 or the second keel 33 is provided with a limiting block 9, a gap is reserved between the limiting block 9 and the floor body 51, the thickness of the limiting block 9 is not more than that of the pressure sensor 61, and the floor body 51 is prevented from excessively sinking;

the end part of the guide post 621 is provided with a flat pressing head 10, and the flat pressing head 10 is propped against the floor body 51, so that the stress locally received by the floor body 51 is reduced, and the stability of the mounting structure is ensured.

The working principle is as follows: firstly, the heat insulation board 1 is fixedly installed on a ground base layer 2, a main cable 4 is wound on the heat insulation board 1, a plurality of first keels 32 and a plurality of second keels 33 are fixed, the first keels 32 and the second keels 33 are fixedly installed on the ground base layer 2 through a support 31, a secondary cable 53 is wound in a heat insulation box 52, the heat insulation box 52 is fixedly installed on a floor body 51 to form a heat-generating floor mechanism 5, the heat-generating floor mechanism 5 is modularly installed in an installation groove 7 to complete installation, secondly, when the floor body 51 is normally used, the main cable 4 is electrified to generate heat, so that a large space is heated and has a base temperature, finally, when the floor body 51 is trampled for a long time, the guide post 621 slides along the guide sleeve 622 under the action of the floor body 51, the spring 623 has an elastic damping action on the sliding of the guide post 621, so that the floor body 51 has a slight sinking action, so that the pressure sensor 61 obtains pressure, at the moment, a light belt 8 supplies power, so that the floor body 51 at the position is in a local heating mode, meanwhile, the secondary cable 53 is communicated with the main cable 4 and obtains current, so that the local heating control of the local heating area of the floor body is realized, and the local heating of the local heating area is controlled.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (5)

1. The utility model provides a modularization installation design structure that pressure-sensitive accuse temperature electricity ground warms up which characterized in that: the method comprises the following steps:

the insulation board (1) is fixedly arranged on the ground base layer (2);

the overhead mechanism (3) is positioned above the heat insulation plate (1), and the overhead mechanism (3) penetrates through the heat insulation plate (1) and is fixedly installed on the ground base layer (2);

a main cable (4) wound around the insulation board (1);

the plurality of heating floor mechanisms (5) are clamped and mounted on the overhead mechanism (3), and the heating floor mechanisms (5) are electrically connected with the main cable (4);

the pressure control mechanisms (6) are fixedly arranged at the lower edge of the heating floor mechanism (5), the pressure control mechanisms (6) abut against the overhead mechanism (3), and the pressure control mechanisms (6) are electrically connected with the heating floor mechanism (5);

the overhead mechanism (3) comprises a plurality of supports (31), a plurality of first keels (32) and a plurality of second keels (33), one ends of the supports (31) penetrate through the heat insulation board (1) and are fixedly installed on the ground base layer (2), the first keels (32) and the second keels (33) are vertically arranged and are fixedly installed at the other ends of the supports (31), and an installation groove (7) is defined between every two adjacent first keels (32) and every two adjacent second keels (33);

the heating floor mechanism (5) comprises a floor body (51), a heat preservation box (52) and an auxiliary cable (53), wherein the heat preservation box (52) is fixedly connected to the bottom surface of the floor body (51), the auxiliary cable (53) is coiled in the heat preservation box (52), the auxiliary cable (53) is electrically connected with the main cable (4), and the heat preservation box (52) is clamped in the mounting groove (7);

the pressure control mechanism (6) comprises a pressure sensor (61) and a plurality of elastic pieces (62), wherein the pressure sensor (61) is fixedly arranged on the floor body (51);

lamp strips (8) are wound around the floor body (51), and the lamp strips (8) are electrically connected with the pressure sensors (61).

2. The modular installation design structure of a pressure-sensing temperature-control electric floor heating system as claimed in claim 1, wherein the pressure sensor (61) contacts the first keel (32) or the second keel (33), the pressure sensor (61) is electrically connected with the auxiliary cable (53), the plurality of elastic members (62) are fixedly installed on the first keel (32) and the second keel (33), and the plurality of elastic members (62) are propped against the floor body (51).

3. The modular installation design structure of a pressure-sensitive temperature-controlled electric floor heater as claimed in claim 2, wherein the elastic member (62) comprises a guide post (621), a guide sleeve (622) and a spring (623), the guide post (621) is fixedly mounted on the first keel (32) or the second keel (33), the guide post (621) is slidably disposed in the guide sleeve (622), the guide post (621) abuts against the floor body (51), the spring (623) is sleeved on the guide post (621) and the guide sleeve (622), and opposite ends of the spring (623) respectively abut against the guide sleeve (622) and the floor body (51).

4. The modular installation design structure of pressure-sensitive temperature-control electric floor heating according to claim 1, wherein a limiting block (9) is arranged on the first keel (32) or the second keel (33), a gap is reserved between the limiting block (9) and the floor body (51), and the thickness of the limiting block (9) is not larger than that of the pressure sensor (61).

5. The modular installation design structure of pressure-sensing temperature-controlling electric floor heating as claimed in claim 3, wherein the end of the guide pillar (621) is provided with a flat pressing head (10), and the flat pressing head (10) is pressed against the floor body (51).

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