FR3051184A1 - OVEN OF THERMOFORMING AND FUSIONING OF GLASS PIECES OF SMALL SIZE WITH SOLE AT THE REST OF THE OPENING OF THE OVEN, CHUCK ARTICULATED BELL AND USE OF FIBROUS REFRACTORIES - Google Patents

Abstract

Thermoforming furnace and merging small glass parts used in particular for movement and animations, low weight for the purpose of being transportable by a person without the need for handling tools, the oven having a low consumption energy supply for connection to the domestic electricity network, characterized by: A hearth (a) placed at the edge of the opening (b) of the oven on the frame (d), a bell (c) hinged to the frame (d), said bell being provided with electric heating elements (e) placed under the vault (f) of the bell, the use of refractory fiber components (j) having the characteristics of high thermal resistance and low weight.

Description

DESCRIPTION The invention relates to a furnace for thermoforming and merging of small glass parts used especially in the context of movements and animations, of low weight for the purpose of being transportable by a person without the need for a tool. handling, the oven with low energy consumption to connect to the domestic electricity network.

State of knowing:

Small glass thermoforming furnaces exist which are designed according to a principle of: • Refractory bricks which consequently weigh the kiln (more than 60 Kg) and prevent it from being handled by a single person without means of lifting , • Of significant energy consumption, more than 3,5 KW / h, which prevents them from being able to be connected to a standard socket 16 amps of the domestic electrical network which is limited to 3,2 Kw / h in maximum power, • Design in "bowl" characterized in that in the parts to be treated come to rest in the bowl of the oven with a covering lid during cooking. Except in the form of oven in bowl prevents delicate handling and against the setting of the objects to be cooked inside, • Visible resistances that require the installation of safety contactors during the opening of door for the purposes of avoid the risk of electrocution, • These same apparent electrical resistances do not have optimum radiation because they are inserted into the refractory brick in order to maintain them in their position.

These ovens are designed to withstand a maximum temperature of 1000 ° C, expected otherwise that their operating regime is 800 ° C.

Description: [0001] The invention relates to a thermoforming and fusing furnace (in the professional fusing language) of small-size glass parts used especially in the context of movements and animations, of low weight for the purpose of being transportable by a person without the need for a handling tool, the oven having a low energy consumption for connecting to the domestic electricity network, characterized by:

A sole (a) placed at the edge of the opening (b) of the oven on the frame (d),

A bell (c) articulated to the frame (d), said bell being provided with electric heating elements (e) placed under the roof (f) of the bell. The use of refractory fiber components (j) with the characteristics of high thermal resistance and low weight.

The electric heating elements (e) positioned under the vault of the bell are composed of corrugated resistances (g) placed in quartz tubes (h), the latter allowing to mechanically maintain the resistances in all their length by avoiding them to deform mechanically or by expansion phenomenon during warm-up.

Said heating elements (e) positioned in their quarter tubes (h) are held under the vault of the bell by means of reservations made in the side refractories (i) of the bell, so that the ends of the tubes quartz are blocked by the said refractories (i) preventing the tubes and resistances they contain from moving. As a result, the resistors (g) being held in their tubes (h) which are themselves stuck by reservations in the refractory (i), it is not necessary to use a heating element holding technology ( e) by gorges dug in the refractory of the vault of the bell, which optimizes: the thermal resistance of the refractory under the vault of the bell, in that it is not amputated by reservations on all the surface of the vault , the thermal radiation in that unlike the technology for maintaining the resistances in grooves, the resistances are not prevented in their side radiation (in the case of grooves, the resistance is prevented from radiating laterally due to its position in the throat),

Consumption and the need for electrical power in that there is no need to compensate for radiation losses of resistance.

It should be noted that the use of grooves associated with refractory bricks technology, accustomed cases in the case of glass thermoforming furnace (technology resulting in considerably increase the oven and prevent its transport and movement), allows to restore the energy, in that the refractory brick returns the calories which it absorbed and that the diffusion of energy passes in part by the refractory brick. In the case of refractory materials made of fibrous materials, the action of the refractory is to block the calories and not to absorb them. That is why, in the context of the use of fibrous materials, the position of resistors (g) placed in quartz tubes (h) without constricting them in grooves makes it possible to amplify the radiation action with a minimum of need of electric power, while the use of refractory bricks calls a phenomenon of energy-consuming thermal inertia in that it is useful to heat the oven well in advance to ensure the energy restitution whereas after use the brick refractory continues to diffuse unused energy.

The fibrous material refractories (j) are placed in the hearth (a) and the bell (c) in such a way as to avoid any thermal transmission to the bodywork. More precisely :

In the lower part of the oven:

The frame (d) receiving the hearth is designed according to the principle that it receives a mechanical support (k) intermediate between the frame and the hearth (a) intended to place the fibrous refractory constituting the hearth (a),

This mechanical support (k) is placed at a certain height in the chassis so that the sole (a) is positioned at the top of the frame (d), leaving an air chamber at the bottom of the chassis. The said chamber is intended to participate in the natural convection of cooling the oven,

The mechanical support (k) has a dimension smaller than the internal perimeter of the frame (d), so as to leave an air gap of at least 2 centimeters over the entire periphery of the chassis,

The reception of the support (k) on the frame rests on uprights (I) fixed vertically on the frame, placed at different points of the latter to allow a connection between the frame (d) and the mechanical support (k) without breaking the air circulation between the floor (a) and the frame (d). On the entire periphery of the upper part of the frame (d), gills (o) are made so as to circulate the air from the chassis chamber (d) to the bell (c).

In the upper part of the oven:

The bell (c) has uprights (m) fixed vertically at different points of its internal perimeter, so as to constitute a ventilation corridor of at least two centimeters over its entire internal perimeter once placed the refractories (i),

In the lower peripheral portion of the bell (c), facing the gills (o) made on the frame (d), gills (p) are formed to circulate air from the frame (d) to the metal walls of the bell, thereby participating in the cooling of the oven body elements,

The lateral refractories (i) are fixed on the upright (m) thus leaving an air gap of at least 2 centimeters between the refractory and the bell, allowing the realization of an air convection coming from the chassis upwards. oven all over its periphery,

The top of the bell (n), consists of a perforated metal sheet in many points so as to evacuate the circulating air by natural or forced convection of the frame chamber (d) over the entire inner periphery of the furnace, thus ensuring a cooling of the entire body of the oven.

The vacuum of air thus formed over the entire inner periphery of the furnace, air void intervening between the sheet and the refractory, avoids the transmission of heat refractory on the metal structure of the furnace.

Figures: 1) Overview of the oven in the open position 2) Sectional view of the oven bell 3) View from above the oven 4) View of the oven closed in section 5) Detail view of an element heating

Glossary: (a) sole (b) oven opening (c) bell (d) chassis (e) heating elements (f) bell vault (g) resistors (h) quarter-refractory (i) tubes ( j) fibrous material refractory (k) mechanical support (l) frame uprights (m) bell uprights (n) bell top (o) frame openings (p) bell ears

Claims (12)

1. Thermoforming furnace and merging small glass parts, used especially in the context of movement and animations, low weight for the purpose of being transportable by a person without the need for handling tools, the furnace having a low energy consumption to connect to the domestic electricity network, characterized by: A sole placed at the edge of the opening of the oven on the frame, a bell hinged to the frame, the said bell being provided with electric heating elements placed under the vault of the bell, The use of refractory fibrous components with the characteristics of high thermal resistance and low weight. 2. Glass jewelry thermoforming furnace according to claim 1 characterized in that the electric heating elements positioned under the vault of the bell are composed of coil resistors placed in quartz tubes, in order to mechanically maintain the resistors in all their lengths by preventing them from deforming mechanically or by expansion phenomenon during warming up. 3. thermoforming furnace of glass jewels according to claim 1 or 2 characterized in that said heating elements positioned in their quarters tubes are held under the vault of the bell through reservations made in the lateral refractories of the bell , such that the ends of the quartz tubes are blocked by said refractory preventing the tubes and resistances they contain from moving. 4. Glass jewelry thermoforming furnace according to claim 1 characterized in that the frame receiving the sole is designed according to the principle that it receives an intermediate mechanical support between the frame and the sole intended to place the fibrous refractory constituting the sole. Glass thermoforming furnace according to claim 4, characterized in that this mechanical support is placed at a certain height in the frame so that the sole is positioned at the top of the frame, thus leaving an air chamber in position. lower part of the frame intended to participate in the natural convection of cooling the oven. 6. Glass jewelry thermoforming furnace according to claim 4 characterized in that mechanical support has a dimension smaller than the internal perimeter of the frame, so as to leave an air gap of at least 2 centimeters over the entire periphery of the frame. 7. Glass jewelry thermoforming furnace according to claim 4 characterized in that reception of the support on the frame rests on uprights fixed vertically on the frame, placed at different points of the latter to allow a connection between the frame and the mechanical support without breaking the air circulation between the floor and the chassis. 8. Glass jewelry thermoforming furnace according to any one of claims 5 to 7 characterized in that all over the periphery of the upper part of the frame, gills are formed so as to circulate the air from the chassis chamber to the bell. 9. Glass jewelry thermoforming furnace according to claims 5 to 8 characterized in that the bell has uprights fixed vertically at different points of its inner perimeter, so as to constitute a ventilation corridor of at least two centimeters on all its inner perimeter once placed the refractories. 10. Glass jewelry thermoforming furnace according to claims 5 to 9 characterized in that in lower peripheral portion of the bell, vis-à-vis the gills made on the frame, gills are formed to circulate the air from the frame to the metal walls of the bell, thereby participating in the cooling of the body elements of the furnace. 11. Glass jewelry thermoforming furnace according to claims 5 to 10 characterized in that the lateral refractories are fixed on the upright thus leaving an air gap of at least 2 centimeters between the refractory and the bell, allowing the realization a convection of air from the frame to the top of the furnace over its entire periphery. 12. Glass jewelry thermoforming furnace according to claims 5 to 11 characterized in that the top of the bell, consists of a perforated metal sheet at many points so as to evacuate the circulating air by natural or forced convection. the chassis chamber over the entire inner periphery of the furnace, thereby cooling the entire furnace body.