CN107842902A - Assembled-type house heating temperature control system and its construction method based on pin-connected panel floor heating layer - Google Patents

Abstract

The invention discloses an assembled residential heating temperature control system based on an assembled floor heating layer, which includes a thermostat module, a floor heating system with rooms as units, and human body detection sensors and temperature sensors installed in each room. The controller module controls the on-off of the floor heating system in each room according to the detection result of the human body detection sensor, and controls the temperature of the floor heating system in each room according to the detection result of the temperature sensor; layer, an assembled floor heating layer, and a layer of phase-change thermal insulation material at normal temperature; the assembled floor heating layer is made of several floor heating blocks, and a through hole is arranged in the center of each floor heating block, and heating elements of the floor heating system are installed in the through holes; the present invention can Realize the floor heating control of a single room and realize the heating of personnel detection, the floor heating system can be turned off after the person leaves the room, and the damage of the floor heating wire can be effectively avoided at the same time.

Description

Prefabricated residential heating and temperature control system based on assembled floor heating layer and its construction method

technical field

The invention relates to an assembled residential heating system, in particular to an assembled residential heating temperature control system based on an assembled floor heating layer.

Background technique

Heating is a technology that uses artificial methods to supply heat to the room to maintain a certain temperature in the room to create suitable living conditions or working conditions. Heat up, and then radiate the indoor air to raise the indoor temperature to achieve the purpose of heating. At present, the heat source medium is mainly water, electric heating film, heating cable, carbon crystal, carbon fiber, etc. in:

The heating mode in which the heat source medium is water is currently a more common heating method in the north and south. It mainly uses low-temperature heat medium (mainly water) to be heated in the heat source, and after absorbing heat, it becomes a high-temperature heat medium (high-temperature water or steam). It is sent to the room through the delivery pipeline, and the heat is released through the heat dissipation equipment to increase the indoor temperature; after heat dissipation, the temperature decreases and becomes a low-temperature heat medium (low temperature water), and then returns to the heat source through the recovery pipeline for recycling.

The heating mode in which the heat source medium is electric heating film, heating cable, carbon crystal, and carbon fiber is to use these media as heating resistance wires, and use electric energy to convert heat energy for indoor heating. According to the heating area and uniformity, it can be classified as follows:

(1) Point heating: represented by air conditioners, electric fans, and radiant panels;

(2) Wire heating: represented by carbon fiber and wire heating cables;

(3) Surface heating: represented by electric heating film. Electric heating film can be further subdivided into: electric heating shed film, electric heating wall film and electric heating film and other different electric heating film varieties.

Floor heating systems are mainly divided into low-temperature hot water ground radiation heating (water floor heating) and heating cable ground radiation heating (electric floor heating) according to different heating methods. Low-temperature hot water ground radiation heating uses hot water with a temperature not higher than 60°C as the heat medium, circulates in the heating pipe, heats the floor, and supplies heat to the room through the ground through radiation and convection heat transfer; heating cable Ground radiation heating is a heating method in which low-temperature heating cables are used as heat sources to heat the floor, and heat is supplied to the room through the ground through radiation and convective heat transfer.

The disadvantages of the existing technology are: centralized heating control, unable to realize the heating control of a single room, making the control extremely inconvenient and flexible; unable to detect whether there are people in the heating room, which often causes people to continue heating after leaving the room, resulting in energy waste; traditional The laying method of the floor heating wire or the floor heating pipe is easily damaged by the extrusion of the floor.

Contents of the invention

In view of this, the object of the present invention is to provide a prefabricated residential heating and temperature control system based on an assembled floor heating layer, which can realize the floor heating control of a single room and realize heating with personnel detection, and can turn off the floor heating system after people leave the room, and at the same time It can also effectively avoid damage to the floor heating wire.

The present invention solves the above technical problems by the following technical means:

A prefabricated residential heating temperature control system based on an assembled floor heating layer, including a thermostat module, a room-based floor heating system, and human detection sensors and temperature sensors installed in each room. The systems are independent of each other. The human body detection sensor is used to detect whether there is human activity in the room and is connected to the thermostat module. The thermostat module controls the on-off of the floor heating system in each room according to the detection result of the human body detection sensor. The temperature The sensor detects the temperature of the floor heating system in each room and is connected to the thermostat module, and the thermostat module controls the temperature of the floor heating system in each room according to the detection results of the temperature sensor; The heat insulation layer, the assembled floor heating layer, and the normal temperature phase change thermal insulation material layer; the floor is laid on the normal temperature phase change thermal insulation material layer, and the assembled floor heating layer is made of several floor heating blocks, and the center of each floor heating block Through holes are provided, and the through holes of all the floor heating blocks of the assembled floor heating layer are first connected to form a mesh path covering the entire room. The heating elements of the floor heating system are installed in the through holes, and the temperature sensor is connected to the heating elements.

Further, the thermostat module is provided with an ideal control temperature for each room, and once the temperature of the room exceeds or falls below the ideal control temperature, the thermostat module controls the floor heating system to adjust the temperature.

Further, the heating element is a heating wire or a water heating pipe.

Further, the floor heating block is processed from concrete to form a hollow block with a through hole in the center.

Further, the section of the floor heating block is M-shaped.

Further, the human body detection sensor is an infrared sensor.

The construction method of the prefabricated residential heating and temperature control system based on the prefabricated floor heating layer includes the following steps:

S01: Set the length, width and thickness of the floor heating block according to the size and heat load of the room;

S02: Lay a heat insulation layer on the concrete slab, lay an assembled floor heating layer on the heat insulation layer, and lay a normal temperature phase change insulation material layer on the assembled floor heating layer;

S03: Install the temperature sensor and the human body detection sensor, and realize the communication with the thermostat module.

Further, the laying of the assembled floor heating layer includes the following sub-steps:

S11: Assemble floor heating blocks in sequence;

S12: Insert heating elements through the central through hole of the floor heating unit.

Beneficial effects of the present invention: first, the system is in the closed state, and the heating wire does not work. When someone enters the room for activities, the infrared sensor in the room is triggered, the system is powered on, the heating wire works, and the temperature in the room starts to rise, so that the temperature in the room is maintained at Within the set temperature of the thermostat, when the person leaves, the infrared sensor is triggered again, and the system is powered off. However, due to the thermal insulation effect of concrete and normal temperature phase-change insulation materials, the temperature in the room continues to remain within a certain range, that is, when people It starts working when it is active, and automatically disconnects the modular control effect after people leave. In a room where no one is active, the system does not work. The floor heating block has been prefabricated in advance and can be installed on site. Speed up construction progress and save costs. Utilize the superior thermal insulation performance of concrete to achieve the purpose of energy saving. At the same time, the floor heating block has good pressure bearing performance, and it is easier to play its advantages in combination with the heating wire. The construction process of floor heating installation is convenient and simple, and the progress is accelerated at the same time.

Description of drawings

Fig. 1 is the schematic cross-sectional view of embodiment 1 floor heating block;

Fig. 2 is a layered schematic diagram of the floor heating system of Embodiment 1;

FIG. 3 is a system block diagram of Embodiment 1.

Detailed ways

The present invention will be described in detail below in conjunction with accompanying drawing:

A prefabricated residential heating temperature control system based on an assembled floor heating layer, including a thermostat module, a room-based floor heating system, and human detection sensors and temperature sensors installed in each room. The systems are independent of each other. The human body detection sensor is used to detect whether there is human activity in the room and is connected to the thermostat module. The thermostat module controls the on-off of the floor heating system in each room according to the detection result of the human body detection sensor. The temperature The sensor detects the temperature of the floor heating system in each room and is connected to the thermostat module, and the thermostat module controls the temperature of the floor heating system in each room according to the detection results of the temperature sensor; The heat insulation layer, the assembled floor heating layer, and the normal temperature phase change thermal insulation material layer; the floor is laid on the normal temperature phase change thermal insulation material layer, and the assembled floor heating layer is made of several floor heating blocks, and the center of each floor heating block Through holes are provided, and the through holes of all the floor heating blocks of the assembled floor heating layer are first connected to form a mesh path covering the entire room. The heating elements of the floor heating system are installed in the through holes, and the temperature sensor is connected to the heating elements.

Further, the thermostat module is provided with an ideal control temperature for each room, and once the temperature of the room exceeds or falls below the ideal control temperature, the thermostat module controls the floor heating system to adjust the temperature.

Further, the heating element is a heating wire or a water heating pipe.

Further, the floor heating block is processed from concrete to form a hollow block with a through hole in the center.

Further, the section of the floor heating block is M-shaped.

Further, the human body detection sensor is an infrared sensor.

The construction method of the prefabricated residential heating and temperature control system based on the prefabricated floor heating layer includes the following steps:

S01: Set the length, width and thickness of the floor heating block according to the size and heat load of the room;

S02: Lay a heat insulation layer on the concrete slab, lay an assembled floor heating layer on the heat insulation layer, and lay a normal temperature phase change insulation material layer on the assembled floor heating layer;

S03: Install the temperature sensor and the human body detection sensor, and realize the communication with the thermostat module.

Further, the laying of the assembled floor heating layer includes the following sub-steps:

S11: Assemble floor heating blocks in sequence;

S12: Insert heating elements in the central through hole of the floor heating system. Before laying M-shaped floor heating blocks, you must calculate the heat load of the room and choose floor panels or floor tiles made of other materials.

【Example 1】

As shown in Figure 1-3:

A prefabricated residential heating temperature control system based on an assembled floor heating layer, including a thermostat module, a room-based floor heating system, and an infrared sensor and a temperature sensor installed in each room, and the floor heating system of each room Independent of each other, the infrared sensor is used to detect whether there is human activity in the room and is connected to the thermostat module. The thermostat module controls the on-off of the floor heating system in each room according to the detection result of the infrared sensor. The temperature of the floor heating system in each room is connected with the thermostat module, and the thermostat module controls the temperature of the floor heating system in each room according to the detection results of the temperature sensor; the floor heating system includes heat insulation laid on the concrete slab from bottom to top. Layer, assembled floor heating layer, normal temperature phase change thermal insulation material layer; the floor is laid on the normal temperature phase change thermal insulation material layer, and the assembled floor heating layer is made of several M-type floor heating blocks, and each M-type floor heating block A through hole is set in the center, and the through holes of all M-shaped floor heating blocks of the assembled floor heating layer are first connected to form a mesh path covering the entire room. The heating wire of the floor heating system is installed in the through hole, and the temperature sensor is connected to the heating wire , wherein the heating wire is a carbon fiber heating wire.

[Example 2]

A prefabricated residential heating temperature control system based on an assembled floor heating layer, including a thermostat module, a room-based floor heating system, and an infrared sensor and a temperature sensor installed in each room, and the floor heating system of each room Independent of each other, the infrared sensor is used to detect whether there is human activity in the room and is connected to the thermostat module. The thermostat module controls the on-off of the floor heating system in each room according to the detection result of the infrared sensor. The temperature of the floor heating system in each room is connected with the thermostat module, and the thermostat module controls the temperature of the floor heating system in each room according to the detection results of the temperature sensor; the floor heating system includes heat insulation laid on the concrete slab from bottom to top. layer, assembled floor heating layer, and normal temperature phase change thermal insulation material layer; the floor is laid on the normal temperature phase change thermal insulation material layer, and the assembled floor heating layer is made of several rectangular floor heating blocks, and the center of each rectangular floor heating block is set Through holes, the through holes of all the rectangular floor heating blocks of the assembled floor heating layer are first connected to form a network path covering the entire room, and the water heating pipes of the floor heating system are installed in the through holes, and the temperature sensor is connected to the water heating pipes.

In this embodiment, in order to enhance its intelligent control, the thermostat module is also connected with the smart home system to achieve higher intelligent control.

It is worth noting that the structure of the floor heating block in the present invention is not limited to M-shaped and rectangular. The concept of protection in the present invention refers to a floor heating block with a hollow structure for installing heating elements. Therefore, as long as it does not deviate from the design concept, No matter how the shape of the floor heating block changes, it belongs to the protection scope of the present invention.

The above embodiments are only used to illustrate the technical solutions of the present invention without limitation. Although the present invention has been described in detail with reference to preferred embodiments, those of ordinary skill in the art should understand that the technical solutions of the present invention can be modified or equivalently replaced. Without departing from the purpose and scope of the technical solutions of the present invention, all of them should be included in the scope of the claims of the present invention.

Claims (8)

1. A prefabricated residential heating temperature control system based on an assembled floor heating layer, characterized in that: it includes a thermostat module, a room-based floor heating system, and human detection sensors and temperature sensors installed in each room , the floor heating systems of each room are independent of each other. The human body detection sensor is used to detect whether there is human activity in the room and is connected to the thermostat module. The thermostat module controls the floor heating system of each room according to the detection result of the human body detection sensor. On and off, the temperature sensor detects the temperature of the floor heating system in each room and is connected with the thermostat module, and the thermostat module controls the temperature of the floor heating system in each room according to the detection result of the temperature sensor; the floor heating system includes bottom-to-bottom The heat insulation layer, assembled floor heating layer, and normal temperature phase change thermal insulation material layer laid on the concrete slab; the floor is laid on the normal temperature phase change thermal insulation material layer, and the assembled floor heating layer is made of several floor heating blocks. The center of each floor heating block is provided with a through hole, and the through holes of all the floor heating blocks of the assembled floor heating layer are first connected to form a mesh path covering the entire room, and the heating element of the floor heating system is installed in the through hole, and the temperature sensor and Heating element connection. 2. The prefabricated residential heating temperature control system based on the assembled floor heating layer according to claim 1, characterized in that: the thermostat module is provided with an ideal control temperature for each room, once the temperature of the room exceeds or Below the ideal control temperature, the thermostat module controls the floor heating system to adjust the temperature. 3. The prefabricated residential heating and temperature control system based on the prefabricated floor heating layer according to claim 1, wherein the heating element is a heating wire or a plumbing pipe. 4. The prefabricated residential heating and temperature control system based on the assembled floor heating layer according to claim 1, characterized in that: the floor heating block is processed from concrete to form a hollow block with a through hole in the center. 5. The prefabricated residential heating and temperature control system based on the prefabricated floor heating layer according to claim 5, characterized in that: the section of the floor heating block is M-shaped. 6. The prefabricated residential heating and temperature control system based on the prefabricated floor heating layer according to claim 1, characterized in that: the human body detection sensor is an infrared sensor. 7. The construction method of the prefabricated residential heating and temperature control system based on the prefabricated floor heating layer, characterized in that it comprises the following steps: S01: Set the length, width and thickness of the floor heating block according to the size and heat load of the room; S02: Lay a heat insulation layer on the concrete slab, lay an assembled floor heating layer on the heat insulation layer, and lay a normal temperature phase change insulation material layer on the assembled floor heating layer; S03: Install the temperature sensor and the human body detection sensor, and realize the communication with the thermostat module. 8. The construction method of the prefabricated residential heating and temperature control system based on the assembled floor heating layer according to claim 7, wherein the laying of the assembled floor heating layer includes the following sub-steps: S11: Assemble floor heating blocks in sequence; S12: Insert heating elements through the central through hole of the floor heating unit.