CN214701049U - Efficient radiation device system capable of uniformly distributing and controlling room temperature - Google Patents

Abstract

The utility model discloses a high-efficient radiation device system of even cloth accuse room temperature relates to radiation device technical field, including reflectance coating, polyphenyl board and radiation coil, polyphenyl board upper surface mat formation reflectance coating, the polyphenyl board level is opened has a plurality of convex recesses that are evenly arranged and are parallel to each other in inside, the radiation coil is arranged in the convex recess, radiation coil inside can circulate hot and cold water; by adopting the mode of mutually combining the polystyrene board, the radiation coil pipe and the reflecting film, when cold and hot water flows into the radiation coil pipe, the cold and hot water is radiated to the indoor, so that the indoor temperature is uniform and stable. Because the radiation coil pipes 5 are uniformly distributed in the polystyrene board, and then the whole template is fixed below the concrete floor in a sticking and expansion fixing mode, the design mode can be used for construction after the construction main body is finished, the whole construction period of the building cannot be delayed, in addition, the structure is simple, the construction cost is relatively low, and the operation is very stable.

Description

Efficient radiation device system capable of uniformly distributing and controlling room temperature

Technical Field

The utility model belongs to the technical field of the radiation device technique and specifically relates to a high-efficient radiation device system of even cloth accuse room temperature is related to.

Background

A radiant heating and cooling system is an engineering facility for supplying corresponding heat or cold to the interior of a room in order to maintain a desired temperature in the room. The system takes water as a carrier of a cooling medium or a heating medium, and then conducts heat or refrigerates to indoor radiation.

At present, most of radiation systems are concrete buried tube radiation systems, metal radiation plate systems or capillary tube network radiation systems, but the radiation systems have certain limitations and disadvantages. For example, the concrete pipe laying radiation system must be constructed together with the main structure body, and cannot be additionally installed in the later period, the metal radiation plate system has high manufacturing cost, the cost is greatly increased, and the problems that the capillary network radiation system is easy to cause pipeline blockage and the like are solved. Therefore, research and development of a radiation system with higher cost performance and better effect are problems which need to be solved urgently for each manufacturer.

SUMMERY OF THE UTILITY MODEL

In view of the deficiencies and defects existing in the prior art, the present invention aims to provide a radiation system end device which can be constructed after the main body is completed, and has relatively low cost and stable operation.

In order to solve the technical problem, the utility model discloses a following technical scheme: the utility model provides an evenly distribute high-efficient radiation device system of accuse room temperature, includes reflectance coating, polyphenyl board and radiation coil, polyphenyl board upper surface reflection coating of mating formation, the inside level of polyphenyl board open have a plurality of evenly arranged and the circular through-hole that is parallel to each other, the through-hole inside arrange radiation coil, radiation coil inside can circulate cold water or hot water.

As the utility model discloses a further improvement, the polyphenyl board divide into a plurality of modules according to radiation coil's the condition, splice through bonding between the adjacent module, set up a set of enhancement fossil fragments simultaneously in every module at least, when the polyphenyl board divides the module, every polyphenyl board module is inside all to be equipped with a set of convex recess at least for lay radiation coil.

As a further improvement of the utility model, the reinforced keel is a wooden keel.

As a further improvement of the utility model, the reflective membrane adopt the special mirror surface reflective membrane of ground heating.

As a further improvement of the utility model, the lower surface of the polystyrene board is provided with a layer of aluminum foil.

Compared with the prior art, the utility model discloses the beneficial effect who has does:

1. by adopting the mode of mutually combining the polystyrene board, the radiation coil and the reflecting film, when cold water or hot water flows into the radiation coil, cold energy or heat carried by the cold water or the hot water carries out cold and hot radiation to the indoor through the radiation coil and the aluminum foil so as to achieve the effect of indoor heating and refrigeration. The polyphenyl board can play the coil pipe and fix and prevent heat or cold volume transmission to the upper strata, and the radiation coil pipe of evenly arranging simultaneously and reflective membrane and the aluminium foil on the radiation board can make the very even distribution of heat more, make this layer reach better heating refrigeration effect.

Because the radiation coil pipes 5 are uniformly distributed in the polystyrene board 3, and then the whole polystyrene board 3 is fixed below the concrete floor in a sticking and expansion fixing mode, the design mode can be used for construction after the construction main body is finished, the whole construction period of the building cannot be delayed, in addition, the structure is simple, the construction cost is relatively low, and the operation is very stable.

2. Through dividing into a plurality of modules to the polyphenyl board, and set up the enhancement fossil fragments on every module, can strengthen the bulk strength of polyphenyl board greatly, more durable is durable, sets up the gim peg in addition in enhancement fossil fragments department and fixes this device in the concrete floor below, need not destroy the structure of polyphenyl board, has improved thermal insulation performance and whole life-span. In addition, the heat transfer performance is not affected by the outside by adopting the wooden keel.

3. The reflective membrane adopts the special mirror surface reflective membrane of ground heating, and reflection heat that can be better prevents the heat to upper strata conduction, guarantees that the heat serves this layer. The mirror reflection film can accelerate the temperature rise speed, has high reflectivity, prevents heat loss and enables radiation to be uniform.

4. The aluminum foil with good heat conductivity is arranged on the lower surface of the polystyrene board, so that cold and heat radiated by the coil pipe can be better, quickly and uniformly served indoors, and the radiation effect is better favorable for uniform and stable indoor temperature.

Drawings

The invention will be further described with reference to the accompanying drawings:

fig. 1 is a schematic structural diagram of a high-efficiency radiation device system for uniformly distributing and controlling room temperature according to the present invention;

in the figure: 1 reflective film, 2 reinforced keel, 3 polyphenyl board, 4 aluminum foil, 5 radiant coil pipe and 6 circular arc groove.

Detailed Description

The present invention will be described in further detail with reference to fig. 1.

Example 1

The embodiment of the utility model discloses high-efficient radiation device system of even cloth accuse room temperature. Referring to fig. 1, a high-efficient radiation device system of even cloth accuse room temperature, including reflectance coating 1, polyphenyl board 3 and radiation coil pipe 5, reflectance coating 1 is mated formation to polyphenyl board 3 upper surface, and reflectance coating 1 can preferably adopt the special mirror reflection membrane of ground heating, and reflection heat that can be better prevents the heat to the upper strata conduction, guarantees that the heat serves this layer. The mirror reflection film can accelerate the temperature rise and has high reflectivity.

A plurality of uniformly arranged and mutually parallel arc-shaped grooves 6 are horizontally formed in the polystyrene board 3, the radiation coil 5 is pressed into the through hole 6, and hot water can flow into the radiation coil 5. When the polystyrene board is installed in a building, the radiation coil pipe 5 is pressed into the circular arc-shaped groove 6 of the polystyrene board 3, and the polystyrene board 3 is paved below a concrete floor. When needs heating or cooling, open water pipeline control switch, circulation hot water or cold water in the radiation coil pipe 5, cold and hot volume passes through radiation coil pipe 5 to indoor radiation, and polyphenyl board 3 can play the coil pipe and fix and prevent heat or cold volume to upper strata transmission, and the reflection film and the aluminium foil on radiation coil pipe and the radiation board of evenly arranging simultaneously can make the more very even distribution of heat, makes this layer reach better heating refrigeration effect.

Example 2

Referring to fig. 1, a high-efficient radiation device system of even cloth accuse room temperature, including reflectance coating 1, polyphenyl board 3 and radiation coil pipe 5, polyphenyl board 3 upper surface pavement reflectance coating 1, the polyphenyl board 3 inside level is opened has a plurality of evenly arranged and arc recess 6 that are parallel to each other, and radiation coil pipe 5 is pressed into to arc recess 6 inside, and radiation coil pipe 5 inside can circulate hot and cold water.

In order to better fix the polystyrene board 3 below the concrete floor and avoid the polystyrene board 3 from displacement, in practical application, the polystyrene board 3 is divided into a plurality of modules according to the arrangement condition of the indoor radiation coil 5, two adjacent modules are spliced through bonding, at least one group of reinforced keel 2 is arranged on each polystyrene board wood block, for better heat transfer, the reinforced keel 2 is preferably a wooden keel, when the polystyrene board 3 is divided into modules, at least one group of circular arc-shaped grooves are arranged inside each polystyrene board 3 module, when the polystyrene board 3 is laid, a fixing bolt can be driven into the wooden keel to be fixed with the concrete floor, the fixing bolt driven into the polystyrene board 3 is prevented from damaging the structure of the polystyrene board 3, the service life and the heat preservation performance are influenced, in addition, the reinforced keel can also reinforce the overall strength of the polystyrene board 3, and the strength of the reinforced polystyrene board 3 is prevented from being too low, is damaged.

In addition, the aluminum foil 4 with good heat conductivity is arranged on the lower surface of the polystyrene board 3, so that the cold and heat radiated by the coil can be better, quickly and uniformly served indoors, and the radiation effect is better and is beneficial to uniform and stable indoor temperature.

This kind of design, through adopting polyphenyl board 3, radiation coil 5 and reflectance coating 1 mode of combining each other, flow into the hot and cold water in radiation coil 5, cold and hot volume is through radiation coil 5 to indoor radiation, polyphenyl board 3 can play the coil pipe fixed and prevent heat or cold volume to the upper strata transmission, and the reflectance coating and the aluminium foil on radiation coil and the radiation board that evenly arrange simultaneously can make the more very even distribution of heat, makes this layer reach better heating refrigeration effect. Because the radiation coil pipes 5 are uniformly distributed in the polystyrene board 3, and then the whole template is fixed below the concrete floor in a sticking and expansion fixing mode, the design mode can be used for construction after the construction main body is finished, the whole construction period of the building cannot be delayed, in addition, the structure is simple, the construction cost is relatively low, and the operation is very stable.

When needs heating or cooling, open water pipeline control switch, circulation hot water or cold water in the radiation coil pipe 5, cold and hot volume passes through radiation coil pipe 5 to indoor radiation, and polyphenyl board 3 can play the coil pipe and fix and prevent heat or cold volume to upper strata transmission, and the reflection film and the aluminium foil on radiation coil pipe and the radiation board of evenly arranging simultaneously can make the more very even distribution of heat, makes this layer reach better heating refrigeration effect.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art. It should be understood that the detailed description and specific examples, while indicating the invention, are given by way of illustration only, not by way of limitation, since other embodiments will become apparent to those skilled in the art upon consideration of the following detailed description of the invention without any creative effort.

Claims (5)

1. The utility model provides a high-efficient radiation device system of even cloth accuse room temperature which characterized in that: including reflectance coating (1), polyphenyl board (3) and radiation coil pipe (5), polyphenyl board (3) upper surface pavement reflectance coating (1), polyphenyl board (3) inside level open have a plurality of evenly arranged and arc recess (6) that are parallel to each other, arc recess (6) inside arrange radiation coil pipe (5), radiation coil pipe (5) inside can circulate cold water or hot water.

2. A system for uniformly distributed room temperature high efficiency radiation devices as claimed in claim 1, wherein: the polyphenyl board (3) divide into a plurality of modules according to the condition of radiation coil pipe (5), splice through the bonding between the adjacent module, set up a set of enhancement fossil fragments (2) at least in every module simultaneously, when polyphenyl board (3) divide the module, every polyphenyl board (3) module inside all is equipped with a set of circular arc recess (6) at least for lay radiation coil pipe (5).

3. A system for uniformly distributed room temperature high efficiency radiation devices as claimed in claim 2, wherein: the reinforcing keel (2) is a wooden keel.

4. A system for uniformly distributed room temperature high efficiency radiation devices as claimed in claim 1, wherein: the reflecting film (1) is a mirror reflecting film special for floor heating.

5. A system for uniformly distributed room temperature high efficiency radiation devices according to any one of claims 1-4, wherein: the lower surface of the polystyrene board (3) is provided with a layer of aluminum foil (4).

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