CN206695205U - A kind of building ground heating system - Google Patents

Abstract

The utility model discloses a kind of building ground heating system, ground heating system includes：Solar energy collecting device, circulating line and geothermal device；The solar energy collecting device includes：Solar energy circuit board, battery and heater；Geothermal device is located at building wall or ground, and includes successively from top to bottom：Floor layer, heat transfer layer, heating layer and heat-insulation layer；Heating layer is provided with back-shaped radiating tube and antidetonation device, and the inlet and outlet of back-shaped radiating tube are connected with circulating line respectively；Antidetonation device includes：Flexible supporting frames, division board and bending shock absorber part；Described division board is located at the top of heating layer and heat transfer layer bottom, and is fixed and supported by flexible supporting frames, and the bottom of the bending shock absorber part is fixedly connected with heating layer bottom, and top is connected with division board.The utility model can effectively resist damage of the earthquake to ground heating system using solar energy energy supply heating, energy-conserving and environment-protective.

Description

A kind of building ground heating system

Technical field

The utility model belongs to building field, more particularly to a kind of building ground heating system.

Background technology

The cold winter of northern area brings most inconvenience to resident, now with the introduction of building sophisticated equipment, Necessary means that floor heating central heating is warmed oneself into modern building, but current ground heating system uses combustion heating, not only pole Big wastes resource, and has further resulted in the aggravation of haze weather.Further, since ground heating system is pipe-line system, When running into earthquake, the damage of pipe-line system is easily caused.

Utility model content

The purpose of this utility model is to provide a kind of building ground heating system, is energized and heated using solar energy, energy-conserving and environment-protective, and Damage of the earthquake to ground heating system can effectively be resisted.

Technical scheme provided by the utility model：

A kind of building ground heating system, the ground heating system include：Solar energy collecting device, circulating line and geothermal device； The solar energy collecting device includes：Solar energy circuit board, battery and heater；The solar energy circuit board is located at building Top, the solar energy circuit board are connected with battery；The heater is arranged on circulating line, the circulating line position In building wall or ground, and it is provided with circulating pump；The heater and circulating pump are by storage battery power supply；

The geothermal device is located at building wall or ground, and includes successively from top to bottom：Floor layer, heat transfer layer, hair Thermosphere and heat-insulation layer；The heating layer is provided with back-shaped radiating tube and antidetonation device, and the inlet and outlet of the back-shaped radiating tube are respectively with following Endless tube road is connected；Described antidetonation device includes：Flexible supporting frames, division board and bending shock absorber part；Described division board is located at Between heating layer and heat transfer layer, and fixed and supported by flexible supporting frames, the bottom of the bending shock absorber part is consolidated with heating layer bottom Fixed connection, top is connected with division board.

Further, the bending shock absorber part is symmetrical structure.

Further, the quantity of the bending shock absorber part for two and more than, and be symmetric.

Further, described flexible supporting frames are damping spring.

Further, described division board is heat transfer steel plate.

Further, described heat transfer layer is adobe kang layer.

Further, the heat-insulation layer is provided with triangle heat shield, be provided between the gap of the triangle heat shield every Hot material.

Further, the surface of described floor layer is provided with thermoreceptor, and described heater is opened by solenoid valve control Open；Described thermoreceptor is connected with controller signals；Described controller is connected with solenoid signal；Described electromagnetism Valve, thermoreceptor are energized by battery.

The utility model at least has one of the following advantages：

One, the utility model utilizes solar energy heat collector, and heat and power supply, energy-conserving and environment-protective are provided for ground heating system.

Two, the utility model can effectively resist damage of the earthquake to ground heating system, have good anti seismic efficiency.

Three, the utility model are good to the heat-transfer effect of earth's surface, and can effectively avoid influence of the high fever to other construction materials.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the structural representation of the utility model heat-insulation layer.

Embodiment

Embodiment 1

As depicted in figs. 1 and 2, a kind of building ground heating system, the ground heating system include：Solar energy collecting device 1, circulation Pipeline 2 and geothermal device 3；The solar energy collecting device 1 includes：Solar energy circuit board 4, battery 5 and heater 6；It is described Solar energy circuit board 4 is located at top of building, and the solar energy circuit board 4 is connected with battery 5；The heater 6 is set In on circulating line 2, the circulating line 2 is located at building wall or ground, and is provided with circulating pump 7；The heater 6 and circulation Pump 7 is powered by battery 5；

The geothermal device 3 is located at building wall or ground, and includes successively from top to bottom：Floor layer 8, heat transfer layer 9, Heating layer 10 and heat-insulation layer 11；The heating layer 10 is provided with back-shaped radiating tube 12 and antidetonation device 13, the back-shaped radiating tube 12 Inlet and outlet are connected with circulating line 2 respectively；Described antidetonation device 13 includes：Flexible supporting frames 14, division board 15 and bending subtract Shake part 16；Described division board 15 fixes support between heating layer 10 and heat transfer layer 9, and by flexible supporting frames 14, described The bottom of bending shock absorber part 16 is fixedly connected with the bottom of heating layer 10, and top is connected with division board 15.

The utility model provides heat and power supply, energy-conserving and environment-protective using solar energy heat collector for ground heating system.Solar energy Collecting plate absorbs solar energy and stored into battery, and described battery is powered to heater and circulating pump, effectively utilizes the sun Energy.When needing heating, heater heat cycles pipeline, circulating line conduction hot water enters the back-shaped radiating of heating layer Pipe, and floor surface is conducted heat to by heat transfer layer.The utility model heat-transfer effect is good, and the time is short, and power consumption is low.

The utility model can effectively avoid infringement of the earthquake to geothermal system by antidetonation device, wherein flexible supporting frames and Bending shock absorber part can effectively reduce vibrations, play a part of buffering.In addition division board can effectively stop that mudstone comes off, be sliding Fall or other weights drop and impacted to caused by pipe-line system.

Embodiment 2

On the basis of embodiment 1, the bending shock absorber part 16 is symmetrical structure.The utility model is set shock absorber part is bent Symmetrical structure is set to, can effectively alleviate seismaesthesia, improves antidetonation efficiency.

Embodiment 3

On the basis of embodiment 1-2, the quantity of the bending shock absorber part 16 for two and more than, and be symmetric. The utility model further can effectively alleviate seismaesthesia by bending being symmetrical arranged for shock absorber part, improve antidetonation efficiency, protect simultaneously Hold the steady of division board.

Embodiment 4

On the basis of embodiment 1-3, described flexible supporting frames 14 are damping spring.The utility model will flexibly support Frame 14 is damping spring, further can effectively alleviate seismaesthesia, improves antidetonation efficiency.

Embodiment 5

On the basis of embodiment 1-4, described division board 15 is heat transfer steel plate.Division board is arranged to the steel plate that conducts heat, Its heat conductive efficiency is not only improved, improves geothermal system energy efficient heat transfer, and its stiffness and hardness are stronger, can effectively support heat transfer Layer and surface layer, it can effectively stop that mudstone comes off, slid or other weights drop to caused by pipe-line system impact, improve it Security,

Embodiment 6

On the basis of embodiment 1-5, described heat transfer layer 9 is adobe kang layer, and adobe kang layer not only can effectively conduct heat, carry High heat transfer efficiency, shorten heat transfer time, and can also be effectively incubated, avoid scattering and disappearing for heat.

Embodiment 7

On the basis of embodiment 1-6, the heat-insulation layer 11 is provided with triangle heat shield 17, the triangle heat shield 17 Gap between be provided with heat-barrier material 18.The utility model can effectively isolate the transmission of heat by triangle heat shield, together When heat-barrier material can effectively absorb the propagation of heat and intercept heat, reduce influence of the high fever to other construction materials.

Embodiment 8

On the basis of embodiment 1-7, the surface of described floor layer is provided with thermoreceptor, and described heater is by electricity Magnet valve control is opened；Described thermoreceptor is connected with controller signals；Described controller is connected with solenoid signal；Institute Magnetic valve, the thermoreceptor stated are energized by battery.The utility model monitors surface temperature by thermoreceptor, can be by it Feedback of the information is to controller, and after being analyzed by controller, the magnetic valve for sending signal control heater is turned on and off.

The utility model is limited it should be noted that above-described embodiment illustrates rather than to the utility model System, and those skilled in the art can design alternative embodiment without departing from the scope of the appended claims. In claim, any reference symbol between bracket should not be configured to limitations on claims.Word "comprising" Element or step not listed in the claims is not excluded the presence of.Word "a" or "an" before element is not excluded for depositing In multiple such elements.The utility model can be by means of including the hardware of some different elements and by means of appropriate volume The computer of journey is realized.In if the unit claim of equipment for drying is listed, several in these devices can be logical Same hardware branch is crossed to embody.The use of word first, second, and third does not indicate that any order.Can be by this A little words are construed to title.

Claims (8)

1. a kind of building ground heating system, it is characterised in that the ground heating system includes：Solar energy collecting device（1）, circulating line （2）And geothermal device（3）；The solar energy collecting device（1）Including：Solar energy circuit board（4）, battery（5）And heater （6）；The solar energy circuit board（4）Positioned at top of building, the solar energy circuit board（4）With battery（5）It is connected；Institute State heater（6）It is arranged at circulating line（2）On, the circulating line（2）Positioned at building wall or ground, and it is provided with circulating pump （7）；The heater（6）And circulating pump（7）By battery（5）Power supply；

The geothermal device（3）Positioned at building wall or ground, and include successively from top to bottom：Floor layer（8）, heat transfer layer （9）, heating layer（10）And heat-insulation layer（11）；The heating layer（10）Provided with back-shaped radiating tube（12）With antidetonation device（13）, it is described Back-shaped radiating tube（12）Inlet and outlet respectively with circulating line（2）It is connected；Described antidetonation device（13）Including：Flexible supporting frames （14）, division board（15）With bending shock absorber part（16）；Described division board（15）Positioned at heating layer（10）And heat transfer layer（9）It Between, and by flexible supporting frames（14）Fixed support, the bending shock absorber part（16）Bottom and heating layer（10）Bottom, which is fixed, to be connected Connect, top and division board（15）It is connected.

A kind of 2. building ground heating system according to claim 1, it is characterised in that the bending shock absorber part（16）To be symmetrical Structure.

A kind of 3. building ground heating system according to claim 1, it is characterised in that the bending shock absorber part（16）Quantity For two and more than, and be symmetric.

A kind of 4. building ground heating system according to claim 1, it is characterised in that described flexible supporting frames（14）To subtract Shake spring.

A kind of 5. building ground heating system according to claim 1, it is characterised in that described division board（15）For the steel that conducts heat Plate.

A kind of 6. building ground heating system according to claim 1, it is characterised in that described heat transfer layer（9）For adobe kang layer.

A kind of 7. building ground heating system according to claim 1, it is characterised in that the heat-insulation layer（11）Provided with triangle Heat shield（17）, the triangle heat shield（17）Gap between be provided with heat-barrier material（18）.

8. a kind of building ground heating system according to claim 1, it is characterised in that the surface of described floor layer is provided with temperature Receptor is spent, described heater is opened by solenoid valve control；Described thermoreceptor is connected with controller signals；Described Controller is connected with solenoid signal；Described magnetic valve, thermoreceptor are energized by battery.