CN203657073U - Heating pipeline system for heatable brick bed - Google Patents

Abstract

The utility model discloses a heating pipeline system for a heatable brick bed. The heating pipeline system for the heatable brick bed comprises an internal pipeline sub-system and an external pipeline sub-system which are communicated through a pipe fitting, the internal pipeline sub-system is installed on the upper surface of a heatable brick bed body and comprises a plurality of heating areas, the multiple heating areas are connected in parallel or in series, when the multiple heating areas are connected in parallel, each heating area is of an infection type structure, when the multiple heating areas are connected in series, each heating area is of a parallel type structure, the external pipeline sub-system comprises a heating circulation device, and the outlet end of the heating circulation device is communicated with the inlet end of the internal pipeline sub-system through a pipe fitting. The heating pipeline system for the heatable brick bed enables a bed surface of the heatable brick bed to be evenly heated and improves heating comfort.

Description

A kind of warm a heatable brick bed is with adopting hot channel system

Technical field

The utility model relates to pipe-line system design field, more specifically, relates to a kind of warm a heatable brick bed with adopting hot channel system.

Background technology

Warm a heatable brick bed is the conventional a kind of household warming installation in northern China rural area, common warm a heatable brick bed major part is to add sun-dried mud brick brick work by real brick to form, inner chamber forms passage by adobe as dividing plate, a heatable brick bed rely on the stove of burning or cooking stove to produce heat outward, the heat producing passes on warm a heatable brick bed along bore passages, thereby the temperature of warm a heatable brick bed is raise gradually.This structure is mainly to obtain heat by combustion fuel, programming rate is slow, thermal conversion efficiency is lower, cause the waste of the energy, the smog producing when combustion fuel also pollutes the environment, and because the heat that adopts stove or cooking stove to produce heats, for thermoae unstable, the heating degree of a heatable brick bed face is also inhomogeneous, causes the temperature difference of the warmer end of a kang and a heatable brick bed tail larger, has influence on the comfortableness of heating.

Utility model content

In order to overcome the deficiencies in the prior art, the utility model proposes a kind of warm a heatable brick bed with adopting hot channel system, this warm a heatable brick bed can make a heatable brick bed face of warm antibody be subject to thermal balance with adopting hot channel system, thereby improves heating comfortableness.

To achieve these goals, the technical solution of the utility model is:

A kind of warm a heatable brick bed is with adopting hot channel system, comprise the internal duct subsystem and the exterior line subsystem that are communicated with by pipe fitting, and described internal duct subsystem is arranged on warm a heatable brick bed body upper surface;

Described internal duct subsystem comprises several thermals treatment zone, and each thermal treatment zone adopts parallel connection or series system to connect to each other, and when each thermal treatment zone when being connected in parallel is inflection type structure, while being connected in series, each thermal treatment zone is parallel type structure;

Described exterior line subsystem comprises heat cycles device, and the port of export of heat cycles device is communicated with the arrival end of internal duct subsystem by pipe fitting.

To water or gas heats and flow into internal duct subsystem by pipe fitting, when the water after heating or gas are after internal duct subsystem circulation a period of time, can reach the requirement of heating by heat cycles device.Internal duct subsystem is arranged on warm antibody upper surface, in the time of concrete use, lays up the have a rest object such as backing plate, bed clothes, mattress of use of people.

In the time that the thermal treatment zone of internal duct subsystem connects with parallel way to each other, each thermal treatment zone is the structure of an inflection type, and each thermal treatment zone is a loop.In the time that the thermal treatment zone of internal duct subsystem connects with series system to each other, each thermal treatment zone is the structure of a parallel type, and multiple thermals treatment zone are together in series and form a loop.

Preferably, described exterior line subsystem also comprises flow control electromagnetic valve and temperature sensor, and flow control electromagnetic valve is arranged on the port of export of heat cycles device, and described temperature sensor is arranged on heat cycles device.

The port of export that flow control electromagnetic valve is arranged on heat cycles device flows into the water of internal duct subsystem or the flow of gas for controlling, and realizes the temperature of controlling internal duct subsystem.Temperature sensor is arranged on heat cycles device, the temperature of real-time collection heat cycles device, the temperature of monitoring heating.Realize the free adjustment of temperature by flow control electromagnetic valve and temperature sensor, reach the effect of constant temperature.

Preferably, described exterior line subsystem also comprises switch valve, and switch valve is arranged on the port of export of heat cycles device, and the arrival end of flow control electromagnetic valve communicates with the port of export of switch valve.The increase of switch valve strengthens the security of exterior line subsystem, in the time of input water or gas, controlled stronger.

Preferably, described internal duct subsystem is arranged in heat-insulation layer, and described heat-insulation layer upper ends has high conductive graphite layer.Internal duct subsystem is arranged in heat-insulation layer can guarantee that heat concentrates in the benefited scope of human body, can not spread to surrounding; The upper ends of heat-insulation layer has high conductive graphite layer, can lay people's objects such as the backing plate, bed clothes, mattress of use of having a rest on high conductive graphite layer.

Preferably, the tubing that described internal duct subsystem adopts is PE-RT heating pipe, and this PE-RT heating pipe has high heat dispersion.

Preferably, described exterior line subsystem tubing used and pipe fitting are PE-RT heating pipe, and this PE-RT heating pipe is to have the heat-proof polythene PE-RT central heating secondary materials in the tube that heat-insulating property is superior.

Preferably, the tubing of described exterior line subsystem and pipe fitting are also provided with insulating foam layer outward, can effectively reduce the loss of heat while conveying, greatly improve heat utilization efficiency.

Preferably, described exterior line subsystem and internal duct subsystem separating layout, exterior line subsystem is arranged on different places as required, as outdoor.

Compared with prior art, the beneficial effects of the utility model are:

1) thermal treatment zone of internal duct subsystem all adopts the heat-proof polythene PE-RT heating tubing of high heat dispersion, and heat conduction efficiency is high, and Heat stability is good is corrosion-resistant, long service life; Adopt multiple thermals treatment zone jointly to heat, effectively guarantee the Temperature Distribution equilibrium of a heatable brick bed face; Non-transformer in the thermal treatment zone, electromagnetic-radiation-free, adopts hot water or hot gas cycle heating, energy-conserving and environment-protective.

2) pipeline of exterior line subsystem adopts the superior heat-proof polythene PE-RT central heating secondary pipe of heat-insulating property, and the loss of heat while conveying, with insulating foam layer, can effectively be reduced in the outside of this tubing, greatly improves heat utilization efficiency.

3) this warm a heatable brick bed is provided with flow control electromagnetic valve and temperature sensor by pipe-line system, can, according to people's the free adjustment that need to realize temperature, reach the effect of constant temperature energy-saving.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model embodiment 1.

Fig. 2 is the utility model internal duct subsystem assembling schematic construction cutaway view.

Fig. 3 is the structural representation of the utility model embodiment 2.

The specific embodiment

Below in conjunction with embodiment, the utility model is described in further detail, and still, following examples are not construed as limiting the utility model.

Description of reference numerals

1-internal duct subsystem, 2-exterior line subsystem, the warm a heatable brick bed body of 3-, the 4-thermal treatment zone, 5-heat-insulation layer, the high conductive graphite layer of 6-, 7-flow control electromagnetic valve, 8-switch valve, 9-temperature sensor, 10-heat cycles device.

Embodiment 1

As depicted in figs. 1 and 2, warm a heatable brick bed pipe-line system, mainly comprises the internal duct subsystem 1 and the exterior line subsystem 2 that communicate by pipe fitting, and wherein internal duct subsystem 1 is arranged on warm a heatable brick bed body 3 upper surfaces; Internal duct subsystem 1 is made up of multiple thermal treatment zone 4, and the quantity of the thermal treatment zone 4 can be set as required; The thermal treatment zone 4 is connected in parallel each other, and each thermal treatment zone 4 is inflection type structure, and each thermal treatment zone 4 is a loop; The tubing that internal duct subsystem 1 adopts is the heat-proof polythene PE-RT heating pipe with high heat dispersion; Internal duct subsystem 1 is arranged on 5 li of heat-insulation layers, can guarantee that heat concentrates in the benefited scope of human body, can not spread to surrounding; The upper ends of heat-insulation layer 5 has high conductive graphite layer 6, can lay people's objects such as the backing plate, bed clothes, mattress of use of having a rest on high conductive graphite layer 6.Exterior line subsystem 2 tubing used and pipe fitting all adopt the heat-proof polythene PE-RT central heating secondary materials in the tube that heat-insulating property is superior, the outside of this tubing is with insulating foam layer, can effectively reduce the loss of heat while conveying, greatly improve heat utilization efficiency, and on exterior line subsystem 2, be connected with flow control electromagnetic valve 7, switch valve 8, temperature sensor 9 and heat cycles device 10, switch valve 8 bodies are placed in the port of export of heat cycles device 10, and the arrival end of flow control electromagnetic valve 7 is connected with the port of export of switch valve 8; The flow control electromagnetic valve 7 that exterior line subsystem 2 is provided with and temperature sensor 9, can, according to people's the free adjustment that need to realize temperature, reach the effect of constant temperature; Heat cycles device 10 can heat and circulate the thermal treatment zone 4 water or gas, when after interior circulation a period of time, can reach heating requirement.

This warm a heatable brick bed is separable independent design with internal duct subsystem 1 and the exterior line subsystem 2 of pipe-line system, and exterior line subsystem 2 can be positioned over outdoor.

Embodiment 2

Fig. 3 has provided the structural representation of the utility model embodiment 2.Embodiment 2 is substantially the same manner as Example 1, and difference is that the thermal treatment zone 4 of internal duct subsystem 1 in embodiment 2 is connected in series each other, and each thermal treatment zone 4 is parallel type layout, and multiple thermals treatment zone are together in series and form a loop.

Described above is only preferred embodiment of the present utility model, and above-mentioned specific embodiment is not to restriction of the present utility model.In technological thought category of the present utility model, can there is various distortion and modification, retouching that all those of ordinary skill in the art make according to above description, revise or be equal to replacement, all belong to the scope that the utility model is protected.

Claims (8)

1. warm a heatable brick bed, with adopting a hot channel system, is characterized in that, comprises the internal duct subsystem and the exterior line subsystem that are communicated with by pipe fitting, and described internal duct subsystem is arranged on warm a heatable brick bed body upper surface;

Described internal duct subsystem comprises several thermals treatment zone, and each thermal treatment zone adopts parallel connection or series system to connect to each other, and when each thermal treatment zone when being connected in parallel is inflection type structure, while being connected in series, each thermal treatment zone is parallel type structure;

Described exterior line subsystem comprises heat cycles device, and the port of export of heat cycles device is communicated with the arrival end of internal duct subsystem by pipe fitting.

2. warm a heatable brick bed according to claim 1 is with adopting hot channel system, it is characterized in that, described exterior line subsystem also comprises flow control electromagnetic valve and temperature sensor, and flow control electromagnetic valve is arranged on the port of export of heat cycles device, and described temperature sensor is arranged on heat cycles device.

3. warm a heatable brick bed according to claim 2, with adopting hot channel system, is characterized in that, described exterior line subsystem also comprises switch valve, and switch valve is arranged on the port of export of heat cycles device, and the arrival end of flow control electromagnetic valve communicates with the port of export of switch valve.

According to the warm a heatable brick bed described in claims 1 to 3 any one with adopting hot channel system, it is characterized in that, described internal duct subsystem is arranged in heat-insulation layer, described heat-insulation layer upper ends has high conductive graphite layer.

5. warm a heatable brick bed according to claim 1, with adopting hot channel system, is characterized in that, the tubing that described internal duct subsystem adopts is PE-RT heating pipe.

6. warm a heatable brick bed according to claim 1, with adopting hot channel system, is characterized in that, described exterior line subsystem tubing used and pipe fitting are PE-RT heating pipe.

7. warm a heatable brick bed according to claim 6, with adopting hot channel system, is characterized in that, the tubing of described exterior line subsystem and pipe fitting are also provided with insulating foam layer outward.

8. warm a heatable brick bed according to claim 1, with adopting hot channel system, is characterized in that, described exterior line subsystem and internal duct subsystem separating are arranged.

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