Login| Sign Up| Help| Contact|

Patent Searching and Data


Title:
HOT AIR PRODUCTION METHOD BY AN ENERGY FIRE-PLACE
Document Type and Number:
WIPO Patent Application WO/2011/128706
Kind Code:
A1
Abstract:
The exhausts from the fireside (1) of the fire-place (2) by this method come in direct contact with the second heating chamber (3) which is placed exactly above the fireside (1) and does not occupy the whole surface of the fireside in order to give the opportunity to the fire to "hag" the heating chamber. This heating chamber is direct¬ ly connected to the first heating chamber (4) which is applied behind or indirectly of the fire-place (2). There is a fan adjusted to the bottom (5) of this duct which resorbs fresh air from the environment and supplies it to the heating chamber to heat it. The absorbing air is the exploiting air. Two circle ducts (6) are applied to the exit of the second heating chamber (3). These ducts lead the exploiting air to the third heating chamber (7). The fire-place chimney (9) is surrounded from the third heating chamber (7), so that the exploiting air ducts absorb more heating as it comes out of the first heating chamber.

Inventors:
TSIAKMAKIS ANASTASIOS (GR)
TSIAKMAKIS ALEXANDROS (GR)
Application Number:
PCT/GR2011/000006
Publication Date:
October 20, 2011
Filing Date:
February 11, 2011
Export Citation:
Click for automatic bibliography generation   Help
Assignee:
TSIAKMAKIS ANASTASIOS (GR)
TSIAKMAKIS ALEXANDROS (GR)
International Classes:
F24B7/04
Foreign References:
US4372286A1983-02-08
US4150658A1979-04-24
US4127100A1978-11-28
GB2081436A1982-02-17
US4736730A1988-04-12
Other References:
None
Download PDF:
Claims:
CLAIMS

1. This exploiting hot air production method by an energy fire-place is featured by the fact that the exhausts from the fireside (1) of the fire-place (2) come in direct contact with the second heating chamber (3) which is placed exactly above the fireside (1) and does not occupy the whole surface of the fireside in order to give the opportunity to the fire to "hag" the heating chamber and to have the maximum possible heat transport. This heating chamber is directly connected to a vertical duct (the first heating chamber (4)) which is applied behind or indirectly of the fire-place (2). There is a fan adjusted to the bottom (5) of this duct which resorbs fresh air from the environment and supplies it to the heating chamber to heat it. The absorbing air is the exploiting air. The absorbing air is the exploiting air.

2. According to claim one on each case, two circle ducts (6) are applied to the exit of the upper side of the second heating chamber (3). These ducts lead the exploiting air to the third heating chamber (7). The third heating chamber aims on the bigger exploiting of the exhaust heating. Specifically, the fire-place chimney (9) is surrounded from a chamber, the third heating chamber (7), so that the exploiting air ducts absorb more heating as it comes out of the first heating chamber.

Description:
HOT AIR PRODUCTION METHOD BY AN ENERGY FIRE-PLACE

The invention is referred to an exploiting hot air production method (for room heating) by an energy fire-place. The exceptional attributes of this method regarding the energy performance and the easy construction render the application ideal in every energy fire-place.

The exploiting hot air production methods by an energy fire-place are well known. The operation principle is counted on the exploitation of the heating produced from solid or gas fuel and the induction to the heating place through vents.

Similar constructions until now used the full cover of the fireside with a second mantle which aimed at grouping the fireside perimetric given energy and provide the hot air towards the heating area with forced air ventilation. This method has many disad- vantages. The constructions where too massive, too heavy with a big construction value and finally less energy (caloric) performance since it doesn't fully take advantage of the heating source but also because the use of the exploiting air had eddyings inside of the mantle because of the complicated shape. The specific exploiting hot air production method by a fire-place has the same operation principle with the preexisting ones but the final application has some features that make it pioneer. Through application, it is constructed with two or three heating alternation thermal chambers. The main advantage of this invention is that it increases the energy (caloric) performance of the fire-place while the installation is easier, so more economic from the existing constructions.

The exhausts from the fire-place in this method come in direct contact with the second heating chamber which is placed exactly above the fireside and does not occupy the whole surface of the fireside in order to give the opportunity to the fire to "hag" the heating chamber and transfer more heating in it. This heating chamber is connected directly with a vertical duct (the first heating chamber) which is applied behind or on the side of (the fire-place. The bottom edge of the duct has a fan attached which re- sorbs fresh air from the environment and it supply's it to the heating chamber in order to heat. The absorbing air is the exploiting air.

At the top of the exit of the second heating chamber, two circle ducts are applied. These ducts lead the exploiting air to the third heating chamber. The third heating chamber aims on the bigger exploitation of the exhaust heating. Specifically, the fireplace chimney is surrounded from a chamber, the third heating chamber, in order for the exploiting air ducts to absorb more heating as it comes out of the first heating chamber.

This method has many advantages. The construction is solid since it is situated inside the fireside, has the minimum possible volume, high energy performance, low solid fuel consumption with the maximum possible combustion and low construction cost. As a result, it is more productive on installation from the constructor and more economic in use from the user. An installation mode of the invention is described with a reference to the drawings. Figure 1 presents a respective image of the front view of the fire-place with the air flow.

Figure 2 presents the widthwidth section of the fire-place with the air flow.

Figure 3 presents a perspective view of the back side of the fire-place with the air flow.

Figure 4 presents a perspective view of the front and bottom side of the fire-place with the air flow.

The exhausts from the fireside (1) of the fire-place (2) by this method come in direct contact with the second heating chamber (3) which is placed exactly above the fireside (1) and does not occupy the whole surface of the fireside in order to give the opportunity to the fire to "hag" the heating chamber and to have the maximum possible heat transport. This heating chamber is directly connected to a vertical duct (the first heating chamber (4)) which is applied behind or indirectly of the fire-place (2). There is a fan adjusted to the bottom (5) of this duct which resorbs fresh air from the environment and supplies it to the heating chamber to heat it. The absorbing air is the exploiting air. The absorbing air is the exploiting air. Two circle ducts (6) are applied to the exit of the upper side of the second heating chamber (3). These ducts lead the exploiting air to the third heating chamber (7). The third heating chamber aims on the bigger exploiting of the exhaust heating. Specifically, the fire-place chimney (9) is surrounded from a chamber, the third heating chamber (7), so that the exploiting air ducts absorb more heating as it comes out of the first heating chamber.