RU2121772C1 - Wire system for heating of premises - Google Patents

Abstract

FIELD: electrical engineering, in particular, design of electric heating systems with electric heating wires for heating of premises, preferably, through floor. SUBSTANCE: first claim describes device design which has at least one electric heating cable, temperature control unit, at least one temperature-sensitive detector, connection wires, at least two wire splicing sleeves. It is designed as at least one section which has heating and connection wires which are equipped with heat-proof jacket. Second claim of invention describes device design which has at least one heating cable, temp control unit, at least one temperature sensitive detector, connection wires, at least two wire sleeves, terminal sleeve and splicing sleeve. It is designed as heating section that has heating and connection wires which are equipped with polymer heat-proof jacket. EFFECT: most favorable distribution of temperature along room height, ecological purity, increased electric and mechanical safety, automatic control of required temperature mode, response to heat emitted by persons, home appliances, or sun, hidden heating elements of system which do not disturb arbitrary position of furniture and appliances, possibility to heat premises of complex shape with significant temperature variations in different regions of premises, increased reliability and safety, elimination of annual technical maintenance, accumulation of heat in body of heated surface, for example, floor, operational experience shows that device keeps heat mode for 12-16 hours without electric current. 21 cl, 4 dwg

Description

 The invention relates to electrothermal, in particular to the designs of heating systems containing electric heating cables and intended for electric heating of premises, mainly through the floor.

 Known electric heating cable, which contains a flexible heating element made of high resistance material, such as nichrome, closed externally with an insulating layer, such as fiberglass, an external sealing coating, for example, polyvinyl chloride, tide holders that can be removable (ed. St. USSR N 830666 Cl. H 05 B 3/56, 1981). The cable is laid on a heated surface, and each holder is fixed with pins or a metal rod on a plane or on a curved surface. This is a surface type electric heating device.

 The disadvantages of this device is that, firstly, it has low reliability due to the possibility of mechanical damage to the heating cable itself, due to the presence of only one layer of electrical insulation and a protective sheath, and secondly, it does not provide the requirements of electromagnetic safety and compatibility.

 The closest cable system for space heating is the system used in the construction of a heated floor, containing at least one heat-generating device in the form of an electric heating cable, a device for regulating the heat release of the heating cable, at least one primary heat-sensitive element placed on, inside or under floor decoration material that reads the temperature near the finishing material (PCT application / SE 92/00368, 1992, publication WO 92/22773, F 24 D 13/02, G 05 D 23/19, H 05 V 1/02). The heating cable is placed in at least one channel between the various sheet components and is fixed thereto by brackets that are attached to two opposite sheet components or by tape, or alabaster, or a binder. The heating cable at both ends is provided with connecting cables, which are at least partially laid in the floor structure. In this case, the channel in which the heating cable is located has a width calculated for the largest diameter of the electric heating cable. The sheet components at the ends where the heating cable changes direction, are bent or cut off, the sheet components are laid on a supporting base or floor structure and fixed so that the heating cable can be laid directly in the channel or channels, with the sheet material having a thickness that approximately corresponds to the largest diameter of the heating cable, and the finishing material is located on the upper surface of the sheet components.

 A device for controlling heat generation depending on the signals received from the heat-sensitive element provides energy to the heating cable in the form of electric current pulses with different durations (T normal, T high, T low), which is determined by the need for heating for a particular case .

 The disadvantages of the cable floor heating system according to the known solution are the lack of heat dissipation, due to the fact that the sheet components used as spacers between the threads of the heating cable have rectangular edges, so air cavities appear near the cables. Due to these air cavities, the heat transfer from the cables to the heated surface deteriorates and, as a result, the temperature of the heating cable rises, which significantly reduces its service life.

 Laminated sheets or boards from which it is recommended to produce sheet components have lower thermal conductivity than the cement screed used in our systems. It also leads to poor heat transfer and cable overheating. The installation of heating cables has to be performed in the most diverse premises in terms of area and configuration, therefore, the cable laying step is an indefinite value. Therefore, it is required to have a sufficiently large range of sheet components or to make them individually.

 The objective of the invention according to option 1 and 2 is to create an environmentally friendly cable system for heating a room, mainly a floor, which has high heat dissipation efficiency, ease of installation, reliability and safety of the structure, high efficiency of energy consumption, low cost and long life.

 The cable system for heating a room according to option 2, in addition, additionally has increased convenience of connecting the system to a voltage source and increased electrical safety.

 This task is achieved in that the cable system for heating a room according to embodiment 1, comprising at least one heating cable, a device for controlling the temperature, at least one heat-sensitive sensor, connecting cables, is equipped with at least two connecting couplings and is made in the form of less than one heating section, including heating and connecting cables, made with a polymer heat-resistant sheath, with both ends of the heating cable respectively connected Nena to one end of the connecting cable and sealed in couplings, wherein the other ends of the connecting cables and temperature sensitive detector connected with a device for temperature control.

A cable system for heating a room according to embodiment 2, comprising at least one heating cable, a temperature control device, at least one heat-sensitive sensor, connecting cables, provided with at least two couplings: end and connecting, and made in the form of at least one heating section, including heating and connecting cables made with a polymer heat-resistant sheath, while one of the connecting cables is placed inside the polymer heat-resistant sheath of the heating cable, the ends of these cables are connected inside the end sleeve, which is hermetically sealed, the other end of the connection cable is connected to the temperature control device through the hermetically made coupler, while the other end of the heating cable is connected inside the coupler to one end of the other connection cable, the other end which is connected to a temperature control device to which a temperature-sensitive sensor is connected
The coupling is made of a material close in chemical composition and structure to the material from which the sheaths of the heating and connecting cables are made.

 The coupling can be made with a reinforcing tube on the outside, which is made of a material similar in chemical composition and structure to the material of the coupling.

 The end sleeve can also be made with a reinforcing tube on the outside, which is made of a material close in chemical composition and structure to the material of the end sleeve.

 The temperature control device may include a voltage safety cutoff device connected to a voltage source, a temperature regulator, a switching element connected to a heating cable.

 As a temperature regulator, a temperature regulator with a programming device or a temperature regulator with a clockwork can be used.

 The thermosensitive sensor can be made in the form of a semiconductor thermosensitive resistor connected to a cable, which are sealed and mechanically protected.

 The heating cable has a multilayer insulation made of a heat-resistant polymer material, covered with a shielding and grounding electrical conductor, for example, in the form of a braid, with a heat-resistant polymer sheath applied over it.

 The cable system for heating a room according to embodiment 1 and 2 may contain N heating sections connected in parallel.

 In FIG. 1 shows a structural diagram of a cable system for heating a room according to the first embodiment; in FIG. 2 - the same, according to the second option; in FIG. 3 is a longitudinal section through a coupler; in FIG. 4 - an example of a cable system for heating a room according to a given time program using a temperature control device with a built-in programmer.

 The cable system of embodiment 1 shown in FIG. 1, comprises a heating cable 1, a grounding, shielding electrical conductor 2 of the heating cable 1, made, for example, in the form of a braid, connecting sleeves 3, connecting cables 4 having unpainted cores 5 connected to the heating core 12, the heating cable and colored cores 6 connected to the grounding and shielding conductor 2 of the heating cable, heat-sensitive sensor 7, connecting wires 8 of the temperature-sensitive sensor 7, device 9 for controlling the temperature and surface 10, heating heated cable.

 The cable system of embodiment 2 shown in FIG. 2 comprises a heating cable 1, a grounding shielding electrical conductor 2 of a heating cable 1, made, for example, in the form of a braid, a connecting sleeve 3, connecting cables 4 having unpainted cores 5 connected to the heating core 12 of the heating cable 1 and colored cores 6, connected to the shielding and grounding conductor 2 of the heating cable 1, heat-sensitive sensor 7, connecting wires 8 of the heat-sensitive sensor 7, device 9 for controlling the temperature, surface 10, heating removed by heating cable 1, and end sleeve 11.

 The coupling 3 shown in FIG. 3, comprises a heating core 12 of a heating cable 1, a grounding shielding electrical conductor 2, a polymer heat-resistant sheath 13 of a heating cable 1, an unpainted core 5 of a connecting cable 4, a painted core 6 of a connecting cable 4, a heat-resistant polymer sheath 14 of a connecting cable 4. Heating connection element 15 cores 12 of heating cable 1 and unpainted cores 5 of connecting cable 4, insulator 16 of the connection point of heating cores 12 of heating cable 1. Ground connection element 17 shielding conductor 2 of the heating cable 1 and the colored core of the connecting cable 4. The coupling is filled with a filler 18 made of plastic. Outside, the coupling 3 is provided with a reinforcing tube 19.

 The invention consists in the following.

 The supply voltage from the network (Fig. 1) to the heating cable 1 is supplied through the temperature control device 9, therefore, when the system is turned on, the temperature on the temperature-sensitive sensor 7 is first compared with the set temperature, and if this temperature is lower than the set, the control device 9 temperature signal to turn on the heating cable 1. When current flows, the heating core 12 of cable 1 is heated. Heat due to the thermal conductivity of the structures surrounding the cable is transferred to the air premises.

 The temperature of the structures and air rises until in the installation area of the temperature-sensitive sensor 7 reaches a predetermined value. After that, the device 9 for controlling the temperature gives a signal to turn off the heating cable 1.

Enclosing structures have significant heat capacity (thermal inertia) and therefore both heating and cooling require quite a lot of time. The smoothness of the heating process is also associated with the fact that the power of the cable heating system usually slightly exceeds the value of the heat loss of the room. Due to this, and also due to the uniform distribution of the heating cable over a large surface, the heat flux density per 1 m ^{2 of the} surface is much lower than with furnace heating and with battery heating. Distributed cable heating systems are therefore often called “soft heat”.

 The heat-generating element in the cable heating system of the room is the heating section, which consists of three main components: heating cable 1, connecting cables 4 and couplers 3. Considering that in most cases the heating section is laid on the floor, it is necessary to ensure its high reliability and safety. In addition, it must be impervious to moisture.

The necessary parameters of the heating section are achieved by the following technical solutions:
- as insulation for the heating cable, a material is used that has increased heat resistance, for example, heat-resistant polyvinyl chloride plastic compound or radiation-cross-linked polyethylene;
- the operating temperature for the heating section is always chosen less than the maximum working temperature;
- the insulation of the heating cable is multilayer (usually two-layer) in order to prevent the negative influence of accidental defects arising from extraneous inclusions and process failures;
- the total thickness of the insulation is taken more than for the usual installation and installation cables and wires for the same operating voltage;
- a protective shielding conductor in the form of a braid is applied over the insulation, which shields the propagation of electromagnetic fields outside the heating cable, mechanically protects the insulation and serves as a grounding conductor in case of a short circuit in the heating cable;
- the protective shielding conductor (metal sheath) and the cable as a whole are protected by a heat-resistant polymer sheath, usually made of polyvinyl chloride plastic compound or polyethylene, the sheath protects the screen from corrosion, and the insulation from external influences, primarily from moisture;
- materials that do not support combustion are used as insulation and shell;
- the length of the heating cable in the section is determined by linear heat release and operating voltage, linear heat release (the number of watts of heat generated by 1 m of the cable), in turn, depends on the design of the floor into which the cable is laid and the conditions of heat transfer from the floor surface. So, in the case of laying the cable in a cement screed, linear heat dissipation is usually 15-25 W / m, and when laying the cable between the rough and fair wooden floors - not more than 10 W / m;
- all heating cables have distinctive markings, which are implemented in two ways: the color of the sheath and the alphanumeric markings on the sheath.

Connecting cables:
- have two conductive cores 5 and 6, the cross section of which is determined by the maximum current of the heating cable;
- the insulation of the conductive conductors is marked, for example, multi-colored, and the core 5, intended for connection with the heating core 12 of the heating cable 1, is made of white or natural material, while the second core 6, intended for connection with the conductor 2, is marked (painted);
- insulated conductive cores 5 and 6 of cables 4 are covered with a sheath 14, usually of the same or similar in chemical composition and structure of the material as the sheath 13 of the heating cable 1, such materials that do not support combustion are used as insulation and sheath;
- The insulation resistance of the connecting cables should not be lower than that of the heating cables.

 The couplings 3 provide a reliable connection of the heating core 12 of the heating cable 1 with unpainted conductive cores 3 of the connecting cables 4 with the help of crimped metal sleeves 15, after which the connection is insulated by insulator 16, provide a reliable connection of the shielding and grounding conductor 2 of the heating cable 1 with marked (colored ) conductive cores 6 of the connecting cables 4 by soldering, and the place of the splice screen is shifted along the axis of the cable relative to the place ki heating conductors, the heating space splices and connecting cables are sealed by means of couplings, the couplings material of the same or similar in chemical composition and structure of the material of the heater shells and the connecting cables.

 The couplings 3 are made with a reinforcing tube 19 from the outside, and from a material similar in chemical composition and structure (included in the same group in structure and chemical composition) with the material of the coupling. The reinforcing tube 19 makes the coupling 3 mechanically strong, thereby increasing its reliability and resistance to operational influences.

 The end sleeve 11 is also made of a material similar in chemical composition and structure (included in the same group in structure and chemical composition) with the material of the coupling 3.

 The cable heating system of the room according to option 2 has increased electrical safety due to the fact that the forward and reverse currents, equal in value and flowing in opposite directions, additionally provide mutual compensation of magnetic fields, and the cable design with a grounding and shielding conductor (metal braid) additionally provides electrical safety in case of damage to the heating cable.

 In order to control the temperature in the heated room and control the heating, one of the types of thermostatic device 9 is used, for example, the RT brand, manufactured according to TU-4218-008-23475875-96).

Devices for temperature control are installed in each heated room and automatically maintain the set temperature, avoiding excessive energy consumption. The desired floor temperature is set by turning the knob on the device. The controller can maintain a given temperature in the range + 10-35 ^o With an accuracy of +1 ^o C.

Temperature regulators of the types RT-007-2.0A and RT-007-3.5A, in addition, realize the function of "day-night" (Fig. 4). By pressing the switch key, the regulator is transferred from the "day" mode to the "night" mode, which differs from the "day" mode in that it will maintain a temperature of 3-6 ^o C lower than that which was set in the "day" mode. The day-night function allows you to maintain a low temperature at night, which is very favorable for sleep. It can also be used in the daytime to put the system into an economical heating mode. As a device for regulating temperature, temperature regulators of the RT brand, manufactured according to TU 4218-008-23475875-96, can be used.

 For the same purpose, a temperature regulator with a clockwork of the 9000 series of the company EVERhE is intended.

 In the device for controlling the temperature, a switch with a software device, i.e. a built-in programmer that ensures the operation of the system according to a given time program (Fig. 4). In FIG. Figure 4 shows the standard heating control program built into the controller, which provides for lowering the temperature during the night and during the working hours of the day. The standard program is easily tuned to the mode required by the user.

 In cable heating systems with a maximum total power of cable heating sections exceeding the power that a room thermostat can control, control cabinets should be used, including an input automatic machine; residual current device (RCD); temperature regulator; switching equipment (power relay) supplying voltage to the heating sections and controlled by a temperature regulator; circuit breaker.

 A temperature-sensitive temperature sensor is installed in the floor (in a cement screed), i.e. inside a heated surface and in an area close to the heating cable. The sensor is connected to the device 9 for controlling the temperature. The temperature sensor can be made in the form of a semiconductor thermosensitive resistor connected to a two-wire supply cable. The resistor itself and the cable connection are sealed and mechanically protected. When installing the system, the sensor together with the supply cable is placed in a polymer tube. The tube is also installed inside a heated surface with bending radii such that the temperature sensor can be replaced. The need to replace the sensor may arise due to the fact that the service life of the thermosensitive resistor is shorter than that of the heating cable.

The cable heating system of the room refers to electric heating systems, mainly through the floor and has the following advantages:
- provides the most favorable temperature distribution over the height of the room. The surface of the floor is heated to 25-30 ^o C, the air at the level of the human head has a temperature of 18-20 ^o C, which creates the most comfortable conditions for him;
- differs in ecological purity. This temperature distribution causes only insignificant convective flows, leading to a minimum rise of dust from the floor;
- has a high value of electrical and mechanical safety;
- maintains the set temperature automatically, responding to heat from people, household appliances or the sun;
- the heating elements of the system are hidden and do not interfere with the arbitrary arrangement of furniture and equipment;
- the system is suitable for heating rooms of complex shape with a significant temperature difference in different areas of the room;
- has high reliability and safety in the absence of the need for annual preventive maintenance;
- has the property of heat accumulation in the thickness of a heated surface, such as a floor, and, as shown by operating experience, can maintain thermal conditions up to 12-16 hours when the power is off, which reduces operating costs if a multi-tariff electricity price scale is introduced, since for the duration of The highest tariff system may shut down.

 In winter, not all buildings are often operated, and in this case, by simply shutting down unused rooms, part of the system is decommissioned.

 Easy to automate, allows you to set and implement the most user-friendly and economical heating schedule.

 It can work in combination with any other types of heating systems, compensating for the lack of heat or creating particularly comfortable conditions. The use of the system in the off-season is especially effective, since heat losses during this period are small, and the savings in the delay in switching on central heating by 2-3 weeks (and a corresponding reduction in spring) allows you to recoup the costs of installing a cable heating system for a room in one season.

 The cable heating system can be used as the main system in detached buildings, cottages and in cases where it is not possible to connect to the central water heating system, and can also be used as an additional system (together with others) for thermal comfort, especially in rooms with a cold floor (tile, marble). In this option, it pre-heats the floor and maintains the desired temperature in the room, including in the event of an emergency shutdown of central heating.

Claims (21)

 1. A cable system for heating a room, comprising at least one heating cable, a device for controlling the temperature, at least one heat-sensitive sensor, connecting cables, characterized in that it is provided with at least two connectors and made in the form of at least one heating section, including heating and connecting cables made with a heat-resistant polymer sheath, while both ends of the heating cable are respectively connected to one of the ends with connecting cables and are sealed in the couplings, and the other ends of the connecting cables and the temperature sensor are connected to a temperature control device.  2. The system according to claim 1, characterized in that the coupling is made of a material similar in chemical composition and structure to the material from which the sheaths of the heating and connecting cables are made.  3. The system according to claim 1, characterized in that the coupling is provided externally with a reinforcing tube, which is made of a material similar in chemical composition and structure to the material of the coupling.  4. The system according to claim 1, characterized in that the temperature control device comprises a voltage safety cutoff device connected to a voltage source, a temperature controller and a switch connected to the heating cable via connecting cables.  5. The system according to claim 4, characterized in that a temperature regulator with a programming device is used as a temperature regulator.  6. The system according to claim 4, characterized in that a temperature regulator with a clockwork is used as a temperature regulator.  7. The system according to claim 1, characterized in that the temperature-sensitive sensor is made in the form of a semiconductor heat-sensitive resistor connected to the supply cable, and the resistor and the connection to the cable are sealed and mechanically connected.  8. The system according to claim 1, characterized in that the heating cable has a multilayer insulation made of heat-resistant material and a shielding grounding electrical conductor, for example, in the form of a braid, with a heat-resistant polymer sheath applied over it.  9. The system according to claim 1, characterized in that the insulating sheath of the conductive conductors of the connecting cables is made marked, for example, multi-colored.  10. The system according to claim 1, characterized in that it contains N heating sections connected in parallel.  11. A system for heating a room, comprising at least one heating cable, a device for controlling the temperature, at least one heat-sensitive sensor and connecting cables, characterized in that it is provided with at least two couplings, end and connecting, and is made in the form at least one heating section, including heating and connecting cables made with a heat-resistant polymer sheath, while one of the connecting cables is placed inside a heat-resistant polymer heating cable, and the ends of these cables are connected inside the end sleeve, made hermetically, and the other end of the connecting cable through the joint made hermetically, is connected to the temperature control device, while the other end of the heating cable is connected inside the coupler to one end of the other a connecting cable, the other end of which is connected to a temperature control device to which a temperature-sensitive sensor is connected.  12. The system according to claim 11, characterized in that the coupling is made of a material similar in chemical composition and structure to the material from which the sheaths of the heating and connecting cables are made.  13. The system according to claim 11, characterized in that the connecting sleeve is provided externally with a reinforcing tube, which is made of a material similar in chemical composition and structure to the material of the connecting sleeve.  14. The system of claim 11, wherein the end sleeve is externally provided with a reinforcing tube, which is made of a material similar in chemical composition and structure to the end sleeve material.  15. The system according to claim 11, characterized in that the temperature control device comprises a voltage safety disconnect device connected to a voltage source, a temperature controller, a switch connected to the heating cable via connecting cables.  16. The system according to clause 15, characterized in that a temperature regulator with a programming device is used as a temperature regulator.  17. The system according to clause 15, characterized in that a temperature regulator with a clockwork is used as a temperature regulator.  18. The system according to claim 11, characterized in that the temperature-sensitive sensor is made in the form of a semiconductor heat-sensitive resistor connected to the supply cable, and the resistor itself and its connection are sealed and mechanically connected.  19. The system according to claim 11, characterized in that the heating cable has a multilayer insulation made of heat-resistant polymer material, and a shielding, grounding electrical conductor, for example, in the form of a braid, with a heat-resistant polymer sheath applied over it.  20. The system according to claim 11, characterized in that the insulating sheath of the conductive conductors of the connecting cables is made marked, for example, multi-colored.  21. The system according to claim 11, characterized in that it contains N heating sections connected in parallel.

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