SU697067A3 - High-frequency heating device - Google Patents

Description

The invention relates to induction heating, in particular, nodes heating bodies in the form of a handheld portable device. Induction heating devices are known, including those for local local heating of surfaces (11. However, due to the high type of mass production of automobiles, it was necessary in the automotive industry to have a holder that could be quickly attached with glue to the side wall of a car seconds and which would not damage the finished surface. There was a need to develop a heating unit that should be small in size and be easy to manage. Energy losses in the communication lines between the energy source and the heating unit should be minimized so that the overall efficiency of the system is high and economically viable. The closest known to the invention is a high frequency heating device containing in the form of a primary spiral winding and a secondary coil that encloses it in the form of an open cylinder that forms a capacitive element and a removable heating element with the primary winding, electrically connected to the secondary coil 2. However, this device does not allow to obtain a sufficiently high efficiency and to ensure operation in the specified wells and x. The aim of the invention is to increase the efficiency of the device. The goal is achieved by the fact that the primary winding in the device is located on an insulating cylindrical base and is electrically insulated from the secondary coil, and the heating element is provided around the perimeter from the side facing the target object, protruding edges and connected to the secondary coil from one of its ends. The secondary coil can be made in the form of three conductive layers electrically insulated from each other, the slots of which are aligned, and the primary spiral winding is connected at one end to the coil outer layers connected in series and the other to its inner layer.

The primary winding of a motor can be made of a flat mite, and between it and the insulating base can be additionally placed two coaxial conductive cylinders, an electrical insulation from each other and from the primary winding and the resulting additional capacitive element, and the length of the secondary coil greater than the length of the primary winding ,.

Fig 1 shows the proposed device, a cross-section; in fig. 2 — device unit — transverse section; Fig. 3 shows an embodiment of a device with a triple secondary coil (part of the device); FIG. 4 is the same, connection scheme, secondary I: primary coils of the device; Fig. 5 is the same, the connection pattern in the | toric coil, primary winding I; heating element of the device; in fig, b - the electrical assembly of another embodiment of the device with a primary winding in the form of a tape; in fig. 7 is the same cross section; FIG. 8 is the same electrical connection of the device windings,

The device contains an inductor, made in the form of a primary spiral winding 1 of a relatively large cross section of a copper bar or insulated tube; For example, a teflon or lacquer coating designed for electrically insulating from the secondary coil 2 enclosing it, in the form of an open loop, and a removable heater. element 3, electrically connected to the secondary coil. The primary winding is located on the insulating cylinder 4, and the heating element is provided around the perimeter with protruding edgesKaJ .Ei 5.

In addition, the device contains a casing b of a cylindrical formula, a casing 7 inside which are placed the components necessary for the operation of the device as a whole. The spring 8 of the gulter-winding object is supported by the secondary seal 9. The holder 9 is attached to the surface of the metal sheet 10 by means of a thermosetting adhesive.

The heating device supplies heat energy to the metal sheet 10 for a short time, 2-4 seconds so that the metal sheet itself then transfers the body to the holder 9. The holder 9 has a main body 11, which may contain elastic clamping means of which are not shown. On the one hand, thermosetting glue .I2f is applied on the one side of the holder 9, which is thermally activated when the temperature rises to 200-400 ° (98-204 ° C) for 2-3 seconds. The metal sheet 10 quickly dissipates

thermal energy cools quickly and thermosetting glue, resulting in glue seizes - for l-3 seconds. Since the setting time g € -; of the reactive glue is relatively short, the heating device can be used to quickly install trim holders or similar products on the vertical walls of the car, without fear that the holder will disappear while the thermosetting adhesive will cure. .

The secondary coil absorbs the high-frequency energy from the primary winding and supplies the induction heating current to a removable heating element that is attached to the coil of screw-13 and 13, the secondary coil is made in the form of a qi-nndrg with a slot, and the opposite edges are located along the slot, as a result of the 1-e wherein said cylinder is an open circuit at the periphery. Opposite slots are connected to the corresponding SLIDING slots with the corresponding electrical terminals of the element so that the circulating exciting currents will have a closed loop circuit.

The primary is included in circuits with a co-capacitor 14, which can form either a serial or parallel resonant circuit with the specified winding. The high frequency energy supplied to the capacitor and the inductor is rectangular pulses whose frequency corresponds to the resonant frequency of the circuit and is 1 MHz. The circuit required to operate the heating device is placed in the skin 7 and mounted on the board 15. Therefore, the only power cables connected to the heating device are either a 115-volt two-wire power cable or a direct current power cable supplying geo-exciting current to the board 15 Suitable timed power circuits can be –mounted on boards or can be made as a separate unit, remote from the heating device, but supplying only a constant voltage to it. current, instead of high-frequency energy that would otherwise cause high losses of power and telecommunication lines. Since the board 15 and the capacitor 1 are connected to each other and are located inside the casing 7 and the primary winding is connected to the capacitor and the circuit board through a pair of relatively short flexible conductors, in this case there is virtually no loss of high-frequency energy in the node, resulting in high efficiency. Preferably, the removable heating element 3 is designed in such a way that the protruding edges 5 on it have thin walls, which would maximally achieve the transfer of high-frequency energy into the metal sheet 10. The configuration of the periphery of the removable element 3 can have any shape that exactly matches holder 9. Element 3 is removable in order to use heaters of various configurations by replacing element 3, Preferably, element 3 has a hollow central part 16, which is upmost connected to pipe 17 which, in turn, connected to flexible hose 18. Figure 1 shows only a part of the flexible hose attached to the nozzle. The other end of the flexible hose 18 is connected to the outlet 19 of the valve 20, which is located in the casing 7, the valve 20 is equipped with a threaded fitting 21, which is connected either to the air line or to the vacuum line, depending on the design of the valve4 When using the air line, the valve will have a bypass outlet, whereby pressurized air passing over the hole inside the valve causes an increase in vacuum in irniaH 18. As a result, the holder 9 is held in element 3 until it is fixed to metal Each sheet 10. When the thermo-reactive adhesive 12 is heated by the valve, a positive pressure is created in the hose 18, this facilitates the separation of the element 3 from the holder 9, the valve 20 can be made as a two-way valve, and positive pressure is supplied to one input - negative, as a result of which the vacuum and overpressure can be used to hold the holder 9 in its place before installation and to further separate the holder 9 after installing it on the surface of the metal sheet 10. Cylinder with a slot w resiliently movably secured inside the casing 6 so that the element 3 may be in facial contact pressure to the metal sheet 10 during incorporation of an induction heating device. When pressing the removable element 3 onto the surface of the metal sheet 10, the secondary coil 2, the primary winding 1 and all components connected with them move upward in the casing 6, compressing the helical spring 8. The isolation unit 22 is attached to the lower end of the secondary coil 2 and connects the nozzle 17 and flexible hose 18, being at the same time a constructive support means for the element 3 and the cylinder with a slot, Secondary coil 2 has a flange 23 radially protruding outward, which is located at the upper end of said winding, which interacts with ring 24, fixed in the housing b and together with the removable tip forms a node inductance. The ring 24 is an abutment for the entire inductor assembly, which is pushed outward by the spring 8. In addition, a switch 25 is placed in the casing 6, which has a downwardly projecting pusher cooperating with the flange 23. The switch 25 is connected to a circuit containing a second switch 26, which It is a start switch and, together with the switch 25, causes the heating device to turn on only when both switches are closed. HanpiiMep, the switch 25 is connected in series with the switch 26 and will cause the heating device to turn on only when the removable element 3 is firmly pressed to the sheet 10, as a result of which the entire inductance node shifts and the switch 25 is closed. When the switch 25 is closed, then the starting switch 26 can be closed by pressing the start button 27, Button 27 has a portion 28 extending from it, which is connected to valve 20 and is designed to simultaneously actuate said valve. For example, when holder 9 is placed inside element 3, it is held in it, and when closing switch 25 and subsequent opening, its holder 9 will be ejected positive "1 pressure and remain on the surface of the metal sheet 10, Secondary coil 2 can be made in the form of three conductors layers (Fig. 3, 2a, 2b, 2c) separated by electrical insulation 29, the outer layers 2a and 2c of the secondary coil are connected to each other and the upper part of the primary winding 1 by conductor 30, and the central layer 2c of the secondary coil is connected to the bottom It is part of the primary winding 1 with conductor 31. The device can be structurally designed so that the primary winding 1 is wound from a flat tape and surrounded by insulating layers 32, on one side of which secondary coil 2 is placed, and on the other side there are two coaxial conductive cylinders 33, electrically isolated from each other and form an additional capacitive element.

A feature of the invention is also that the length of the secondary coil is chosen greater than the length of the primary winding.

Claims (4)

Claim 1. High-frequency heating device containing an inductor made in the form of a primary spiral winding and covering its secondary coil in the form of an open cylinder forming a capacitive element with the primary winding, and a removable heating element electrically connected to the secondary coil, which in order to increase efficiency, the primary winding is located on an insulating cylindrical base and is electrically isolated from the secondary coil, and the heating element is provided around from the side facing the heating object, the protrusion of the cover i and is connected to the secondary coil from one of its ends 2, The device according to p "1p about the t of the st that the secondary: the coil is made in the form of three conductive layers electrically insulated from each other, the slots of which are aligned, and the primary spiral winding is connected at one end to the outer coils of the coil connected in series, and the other to its inner layer. 3. The device according to claim 1, wherein the primary winding is made of flat tape, and between it and the insulating base are additionally placed two coaxial conductive cylinders, electrically insulated from each other and from the primary winding and forming an additional capacitive element 4. Device on PP. 1-3, characterized in that the length of the secondary coil is chosen greater than the length of the primary winding. Sources of information taken into account in the examination 1. Sluhotsky D. CES et al., Inducers for induction heating, 1974, p. 119-166. 2, Lozinsky, Induction use of induction heating. 1958. with. 198.  " Features Vat3 g a fpuf-tf 32