PL242107B1 - Glass cartridge with heated glass and temperature sensor - Google Patents

Abstract

The subject of the application presented in the drawing is a glass insert combined with a heated pane and a temperature sensor, which has one, two or three chambers, characterized by the fact that it has at least one pane heated with a tungsten wire, or a surface sprayed on the heated pane, the heating of which it is controlled by a control device with a processor.

Description

Description of the invention

The subject of the patent application is a glass insert combined with heated glass and a temperature sensor.

The application concerns construction.

In the current state of the art, wooden, plastic and aluminum windows are known, which have composite glass inserts consisting of one, two or three-chamber float glass.

Chinese utility model No. CN201439676U is known for Electrically Operated Radiant Heat Heating Glass, which consists of two or more pieces of glass substrate and hollow glass structure, which is formed by connecting spacers or spacer bars. The electrically controlled radiant heating glass is characterized in that the side wall of one glass substrate in the inner cavity of the hollow glass contains a conductive film, and the side wall of the glass substrate corresponding to the conductive film layer is provided with a low-radiation film. In the utility model, the inner cavity of the whole hollow glass can be heated after the conductive film is combined with the heating element, and the heat after heating can be sent and discharged through the glass substrates, so that the interior of the room can be evenly heated like vertical surface glass, thus reducing dust floating caused by room air circulation and keeping the room air clean. Meanwhile, the heat radiation loss caused by the reflection of the low-radiation film is small, the heat energy after heating the glass can be transferred to the outside, the heat energy loss can be reduced, and the heat efficiency is improved; in addition, the electrically controlled thermal radiant glass can also be used as a shielding layer for the external heat source to improve the heat insulation effect of the hollow glass and save the energy source.

A glass insert combined with a heated pane and a temperature sensor, which has one, two, or three chambers, is characterized by having at least one pane heated with a tungsten wire or a surface sputtered on the heated pane, the heating of which is controlled from a control device with processor, the distance frame has a circular extrusion in the middle in the shape of a standing cylinder topped with a hemisphere protruding a few millimeters above the spacer frame to the center of the combined cartridge, the extrusion contains a chamber temperature sensor permanently, the chamber temperature sensor consists of a temperature sensor permanently attached to the top of the housing, which is screwed or pressed into the side housing with a base, which is pressed into the extrusion, the chamber temperature sensor being permanently connected by a cable, or wirelessly to the processor control device, the temperature sensor being permanently attached in extrusion at the bottom, top, or on one of the sides of the circuit, a spacer frame so that it measures the temperature in the middle of the chamber, the side housing with the base is permanently and tightly surrounded by a molecular sieve, and a silicone thiocolene seal, or other chemical sealant, where the control device with the processor is permanently connected by a cable or wirelessly with a room temperature sensor that measures the temperature in the middle of the room on, under, above or on the side of the heated glass, and transmits the data to the control device with the processor, which, also on this basis, the temperature of heating the heated windshield has stopped, whereby the control device and the processor are connected by wire or wirelessly with two diodes, with the green diode, which is lit when the heated glass is heated, and the red diode, which is lit when the glass is heated heated does not heat, while the control device with a processor maintains the appropriate, enumerated value continuously the temperature of the heated glass, which creates a thermal barrier protecting against the loss of heat accumulated in the room where the window with a given composite glass insert is located, is recorded by this device, using algorithms, and the control device with the processor is permanently mounted on the window sash, or in the middle of the window sash, with a glass insert combined with a heated pane, where the heated pane is powered with direct current, through a control device with a processor, a power cord, or wirelessly, from a photovoltaic panel, from a battery, or from the network.

Advantageously, a glass insert combined with a heated pane and a temperature sensor saves heat energy, reduces heating bills, using solar energy to maintain the temperature inside the building. Preferably, the temperature sensor mounted in the center of the insert constantly collects data on the temperature inside the chamber between the external float glass pane and the heated glass pane, which makes it possible to adjust the temperature of the heated glass to such a temperature that does not lower the temperature inside the building, this glass is a thermal barrier for cold air from the outside which cools the outer pane and lowers the temperature inside the chamber.

The subject of the patent application is shown in the drawing, in which Fig. 1 shows a perspective view of the glass insert with heated glass, Fig. 2 shows the view of the glass insert with heated glass from the side, Fig. 3 shows the view of the glass insert with heated glass Fig. 4 shows the view of the frame with the temperature sensor, Fig. 5 shows the view of the temperature sensor in the elements.

A glass insert combined with a heated pane and a temperature sensor, which has one, two or three chambers, has at least one pane heated 2 by means of a tungsten wire or sputtered surface 3 on the heated pane 2, the heating of which is controlled by a control device with a processor 16 The distance frame 7 has a round extrusion 7a in the middle in the shape of a standing cylinder with a hemisphere, protruding a few millimeters above the spacer frame 7 to the center of the composite insert 1. A chamber temperature sensor 14 is permanently fixed in the extrusion 7a. The chamber temperature sensor 14 consists of a temperature sensor 10 fixedly mounted on top of the housing 11 which is screwed or pressed into the side housing 12 with the base 13 which is pressed into the extrusion 7a. The chamber temperature sensor 14 is permanently connected via a cable 15, or wirelessly, to the processor control device 16. The temperature sensor 10 is fixedly mounted in the extrusion 7a at the bottom, top or one of the sides of the periphery of the spacer 7 so that it measures the temperature inside the chamber 21. The side casing 12 with the base 13 is permanently and tightly sealed on the side by a molecular sieve 8, and a seal 9 made of thiokol (Thiokol), silicone or other chemical sealant. The processor control device 16 is permanently connected by a cable 19 or wirelessly to a room temperature sensor 18 which measures the temperature in the center of the room on, below, above or to the side of the heated glass pane 2, and transmits the data to the processor control device 16 which also on this basis, it determines the heating temperature of the heated glass 2.

The control device with the processor 16 is connected by wire or wirelessly to two diodes, to the green diode 22, which is lit when heated glass 2 is heated, and to the red diode 23, which is lit when heated glass 2 is not heated.

The control device with a processor 16 continuously maintains the appropriate temperature of the heated glass 2, calculated by this device using algorithms, which creates a thermal barrier protecting against loss of heat accumulated in the room where the window with a given composite glass insert 1 is located.

The control device with the processor 16 is fixed permanently on the window sash, or in the middle of the window sash, with a glass insert 1 combined with the heated glass pane 2. The heated glass pane 2 is powered with direct current, through the control device with the processor 16, power cord 17, or wirelessly, from a photovoltaic panel, from a battery or from the grid.

Principle of operation.

The glass insert 1 combined with the heated glass pane 2 and the temperature sensor 10 works in such a way that the heated glass pane 2 heats up and creates a kind of thermal barrier that does not allow cooling of this glass, and thus the atmosphere inside the building. The cooled air cools the pane 20 from the outside, the pane 20 cools the gas in the chamber 21, which cools the inner pane, i.e. the heated pane 2. The glass insert 1 with the heated pane 2 and the temperature sensor 10 limits this cooling. Depending on the temperature inside the chamber 21, the control device 16 sets the temperature of the heated glass 2 in such a way as to minimize heat losses. Two temperature sensors are connected to the control device with the processor 16, one temperature sensor 10 mounted in the middle of the chamber 21, and the second one - the room temperature sensor 18 inside the building in front of the heated glass pane 2. Based on the results from both sensors, the control device with the processor 16 determines the heating temperature of the glass heated glass 2. The electricity needed to heat the heated glass 2 is taken from photovoltaic modules or batteries. The heated window pane 2 can be heated by wire 5 or wirelessly. The heated window 2 may or may not have a ceramic coating 6. The heated glass pane 2 may or may not have a connecting rail 4. In the case of using the Energy Window with a set of batteries and photovoltaic modules, application number P.4429498, the energy of the sun, converted into electricity, is stored in batteries next to the window, which allows the heated glass 2 of the glass insert 1 to be heated in the evening and at night, which translates into reducing the consumption of traditional thermal energy needed to heat rooms in the building.

Claims (8)

Patent claims 1. A glass insert combined with a heated pane and a temperature sensor, which has one, two or three chambers, characterized in that it has at least one pane heated (2) with a tungsten wire, or a surface sprayed (3) on the heated pane ( 2), the heating of which is controlled from the control device with a processor (16), with the spacer frame (7) having a circular embossment (7a) in the center in the shape of a standing cylinder ending in a hemisphere protruding a few millimeters above the spacer frame (7) to the center of the cartridge the chamber temperature sensor (14) is permanently mounted in the extrusion (7a), the chamber temperature sensor (14) is permanently connected with a cable (15), or wirelessly with the control device with the processor (16), the side casing (12) with the base (13) is surrounded permanently and tightly from the side by a molecular sieve (6) and a seal (9) made of thiocolene, silicone or other chemical sealant, while the control device with the processor (16) is permanently connected with a cable (19) or wirelessly with the room temperature sensor (18), which measures the temperature inside the room and transfers the data to the control device with the processor (16), which also sets the heating temperature on this basis heated glass (2), the processor control device (16) being wired or wirelessly connected to two diodes, a green diode (22), and a red diode (23), the processor control device (16) being fixed permanently on the window sash or in the middle of the window sash. 2. A glass insert according to claim The device according to claim 1, characterized in that the circular extrusion (7a) has an internal diameter similar to the external diameter of the side housing (12) of the temperature sensor (14). 3. A glass insert according to claim 1, characterized in that the chamber temperature sensor (14) consists of a temperature sensor (10), permanently mounted on top of the housing (11), which is screwed or pressed into the side housing (12) with the base (13), which is pressed into the extrusion (7a). 4. A glass insert according to claim 1, characterized in that the temperature sensor (10) is permanently mounted in the extrusion (7a), at the bottom, top or on one of the sides of the circumference of the spacer frame (7) so that it measures the temperature in the middle of the chamber (21) . 5. A glass insert according to claim 1, characterized in that the control device with a processor (16) is permanently connected by a cable (19) or wirelessly with a room temperature sensor (18) that measures the temperature in the middle of the room on, under, above or on the side of the heated window (2 ), and transfers the data to the control device with a processor (16), which also on this basis determines the heating temperature of the heated window (2). 6. A glass insert according to claim 1, characterized in that the control device with the processor (16) is wired or wirelessly connected to two diodes, the green diode (22) which is lit when the heated glass is heated, and the red diode (23) which is lit when the heated window is heated. when the heated window (2) does not heat up. 7. A glass insert according to claim 1, characterized in that the control device with a processor (16) continuously maintains the appropriate temperature of the heated glass (2) calculated by this device using algorithms, which creates a thermal barrier protecting against loss of heat accumulated in the room in which it is located window with a given composite glass insert (1). 8. A glass insert according to claim 1, characterized in that the heated glass pane (2) is powered with direct current, through a control device with a processor (16), a power cord (17), or wirelessly, from a photovoltaic panel, from a battery, or from the network.