RU2281431C2 - Lamp with wick burner - Google Patents

Abstract

FIELD: portable lighting devices.

SUBSTANCE: lamp comprises fuel tank and burner with corona which is screw on the neck of the tank. The tabs of the corona hold the protecting glass. When the lamp is in operation, the fuel rises over the wick enclosed in the wick tube. The wick is adjusted by means of a shell connected with the handle vie the tie. Air is supplied to the zone of combustion through the openings of the corona and openings in the reflecting cap.

EFFECT: enhanced convenience of servicing and reduced fuel consumption.

15 cl, 6 dwg

Description

FIELD OF THE INVENTION

The invention relates to lighting equipment, and in particular to non-electric lighting devices, in particular to lamps with a wick burner, in which the thermal energy of the burned liquid fuel is converted into light radiation.

State of the art

Well-known lighting devices in which liquid fuel is burned to receive light radiation: these are open lamps - oil lamps, kerosene and oil lamps with a wick burner, glow lamps and others.

A separate group of these devices are lamps with a wick burner, kerosene or oil. [Sidorov M.A. From a torch to electricity. M., GITTL, 1953, pp. 13-18]. Distinctive features of such lamps are the presence of:

- fuel capacity;

- a burner that provides fuel from the tank to the combustion zone due to capillary forces through the wick;

- a lamp glass that creates traction and protects the fuel combustion zone from the wind.

A common drawback of wick lamps is a high fire hazard, due to the possibility of fuel leakage from the tank in emergency situations.

Closest to the claimed device is a kerosene lamp manufactured by a number of Russian enterprises [Kerosene lamps and burners for them. Specifications TU 205 RSFSR 681-17-91. Manual].

The prototype device includes a fuel tank, a burner and a protective glass installed in the burner.

The fuel capacity of the prototype lamp is made of sheet metal in the form of two stamped parts connected by a roll-up with a flap of edges; to seal the container, a sealant is placed in the weld seam. In the upper part of the tank there is a neck with a flange inside the tank on which the internal thread is formed.

The prototype lamp burner consists of:

- housing connected to the fuel tank using an external thread;

- a wick tube fixed in the housing;

- a wick installed in the wick tube with a gap and with the possibility of axial movement;

- a reflective cap attached to the housing, shielding the housing from thermal radiation of the flame and forming a stream of air entering the combustion zone;

- crowns with elastic petals attached to the body and fixing the protective glass;

- a mechanism for moving the wick in the form of gears interacting with the wick with the tips of the teeth through the slots in the wick tube.

The most significant disadvantage of the prototype lamp is the high fire hazard. If the lamp accidentally capsizes or falls over, fuel can freely flow out of the tank through the gap between the wick and the wick tube, through the slots in the wick tube and through the thread connecting the burner to the fuel tank. In case of violation of the sealant in the expansion joint of the fuel tank, for example, when the tank is deformed, fuel can leak through the joint.

The ability to leak and leak fuel creates certain inconvenience in using the device. Seasoned, including a non-working lamp must always be in a vertical position, which makes it difficult to transport. In addition, fuel vapors through gaps and leaks can enter the room and create an odor, including when the lamp is not working, especially when using kerosene as fuel.

The situation with fire hazard and with foreign odors is exacerbated at elevated temperatures in the rooms and prolonged burning of the lamp, as the burner of the prototype device does not provide the necessary heat from the combustion zone, as a result of which the temperature of the fuel gradually rises.

SUMMARY OF THE INVENTION

The technical result of the invention is: increasing the degree of safety during storage and use of the device, expanding its functionality and improving ease of use by simplifying operating conditions, transportation and storage, reducing odors and reducing specific fuel consumption.

The technical result is achieved by the fact that in a lamp with a wick burner, consisting of a fuel tank and a burner, including a housing, a wick tube, a wick, a mechanism for moving and fixing the wick, a reflective cap and a crown with a protective glass fixed in it with the possibility of extraction:

- the fuel tank is made integral of one billet;

- fixed and movable connections between the fuel tank, the burner body, the wick tube and the transmission elements of the wick moving mechanism are sealed;

- the wick tube is made of a material with low thermal conductivity and is equipped with a plug that hermetically closes its outer end when inoperative;

- the inner end of the wick tube is placed as close to the bottom of the fuel tank as possible;

- the cross-sectional area of the channel of the wick tube is from 10% to 80% of the cross-sectional area of an unrestricted wick;

- the actuator of the movement and fixation mechanism of the wick is made in the form of a thin-walled shell, the length of which in the axial direction is greater than the smallest diameter of the channel of the wick tube, placed inside the wick tube with the possibility of axial movement, limited so that the distance from the upper edge of the shell to the outer end of the wick tube is the smallest diameter of the channel of the wick tube.

The fuel capacity of the lamp can be made in the form of a vessel with a mouth protruding outward, on which an external thread is placed.

The fuel tank may be made of glass or flame retardant plastic, in particular low pressure polyethylene or polyethylene terephthalate.

The lamp burner housing can be made in the form of a cap with a hole in which a wick tube is installed through the sealing element, while a thread is made on the inner side surface of the cap and a sealing element is placed on the inner surface of its end, which interacts with the edge of the neck of the fuel tank.

The housing of the lamp burner can be made of plastic that does not support combustion, while the wick tube is installed in the bore of the housing with an interference fit, and the sealing element interacting with the edge of the neck of the fuel tank is made integral with the housing in the form of a wedge-shaped annular protrusion.

The body of the lamp burner can be made integral with the crown or installed in the crown with interference.

A crown in the form of an inverted cap can be directly attached to the lamp burner body, the side walls and part of the bottom of which are separated with gaps into separate petals, and the reflective cap containing the outlet for the outlet of the wick tube and the hole for the passage of air is elastically clamped between the petals of the crown.

The wick tube of the lamp burner can be made of glass or sintered oxide ceramic and have a cylindrical shape.

The executive part of the mechanism for moving and fixing the wick can be connected with the drive part of the mechanism by at least one transmission element that extends outside or inside the fuel tank.

The drive part of the mechanism for moving and fixing the wick can be located inside the fuel tank and made in the form of a kinematic pair, including a screw and a nut, while one of the elements of the kinematic pair is connected to the moving part of the mechanism located outside the fuel tank through a magnetic coupling.

The drive part of the mechanism for moving and fixing the wick can be located outside the fuel tank and is made in the form of a kinematic pair, including a gear wheel and a gear rack or crank and link.

The protective glass of the lamp can be in the form of a hollow cylinder and can be made from waste tubes of spent fluorescent discharge lamps, subjected to demercurization and removal of the phosphor.

The lamp burner may comprise a second crown mounted in an inverted position with respect to the first and bonded with at least two uprights.

Information justifying the achievement of a technical result

The main features of the claimed device:

- an integral fuel tank made from one portion of the material (billet);

- tightness of all fixed and movable joints between structural elements separating the internal and external volumes of the device;

- low thermal conductivity of the material of the wick tube;

- the location of the lower end of the wick tube as close as possible to the bottom of the fuel tank;

- tightness (tightness) of the wick when installed in the wick tube;

- the executive part of the mechanism for moving the wick in the form of a thin-walled cylindrical shell located inside the wick tube.

The seamless design of the fuel tank, made in one way or another from one portion of the material (billet), certainly and in any case increases the reliability of the tank against leakage of fuel and its vapor.

The tightness of all compounds separating the inner and outer volumes of the lamp also eliminates the penetration of fuel and its vapors from the tank to the outside by any of the possible paths except the channel of the wick tube.

The low thermal conductivity of the material of the wick tube is necessary primarily to limit the heat flux from the combustion zone to the sealing elements of the burner body and wick tube, the tightness of which may deteriorate during overheating. In addition, in this case, the temperature of the working end of the wick tube when burning fuel due to the small heat sink is set to a higher level, which contributes to a more complete evaporation of fuel, improves the combustion process, reduces fuel consumption and toxicity of combustion products.

One of the features of the inventive burner (with a "hot" working end) is that the wick, unlike the prototype burner, as a rule, should not protrude beyond the cut of the wick tube. The fuel in the inventive device, in comparison with the known one, evaporates much faster, and the end of the wick protruding beyond the cut of the tube becomes practically dry when the lamp is in steady state. Without cooling by evaporating fuel, the dry area of the wick is charred and burned, i.e. the wick itself seeks to occupy an optimal position at or slightly below the cut of the wick tube. This circumstance, on the one hand, somewhat narrows the device’s capabilities in terms of increasing fuel consumption if necessary and requires more accurate adjustment of the position of the wick, on the other hand, facilitates the complete sealing of the lamp in the idle position, because the wick does not interfere with hermetically blocking the channel of the wick tube in one way or another from the outside, for example with a cap in the form of a cap with a gasket or an elastic cap.

The location of the lower end of the wick tube as close to the bottom of the fuel tank as possible further increases the safety of the device according to the principle of the ink bottle - "spill". Optimally, the wick tube should abut through the wick to the bottom of the fuel tank (the distance from the end of the tube to the bottom is equal to the thickness of the crumpled wick), some space (8-10 mm) is really necessary for moving the wick lifting drive elements.

Installing the wick in the wick tube with constraint allows, on the one hand, to drastically limit the flow of fuel through the channel of the tube in emergency situations, because the hydrodynamic resistance of a tube densely filled with fibrous mass is very high; on the other hand, the tightness of the wick significantly enhances the capillary effect by reducing the cross section of the capillary channels. The latter circumstance further expands the operational capabilities of the burner: the driving force and the rate of fuel rise along the wick increase, which allows to reduce the cross section of the wick tube and increase its height. The possibility of reducing the cross section and increasing the height of the wick tube can further reduce the thermal load on the seals of the burner body and wick tube, and reduce the heating of the fuel in the fuel tank during lamp operation, i.e. increase device security. In addition, the possibilities for choosing aesthetic forms of fuel tanks, burners and glass are expanding.

The limits of the degree of tightness of the wick (the ratio of the cross-sectional area of the wick before and after installation in the wick tube) were established experimentally. An almost uncluttered wick (with a ratio of the indicated areas of 0.8-0.9) does not hold back the fuel well and tends to spontaneously slide down the wick tube during lamp operation. Too tightly clamped wick (with an area ratio of 0.07-0.10) is poorly adjustable in position, although it has very good capillary properties. The claimed limits of the ratio of the cross-sectional area of the wick and the channel of the wick in this way are optimal from the point of view of achieving a technical result.

The constrained state of the wick allows you to hold it inside the wick tube and without additional fixation, so the simplest, including disposable design options of the inventive device with a cylindrical shape of the wick tube do without the mechanism of movement and fixation of the wick. In this case, the preliminary adjustment of the wick can be done manually on an idle lamp when moving down by pulling, and when moving up either by screwing, pushing and pulling, or by reselling the wick through the wick tube.

To adjust the lamp flame on the go, it is necessary to use one or another mechanism consisting of moving elements (handle, handwheel), drive elements (gear, screw, crank-link), transmission elements (rods, torsion bars, couplings) connecting the moving and driving elements with an actuator (directly moving the wick).

The actuating element of the wick moving mechanism in the claimed device is a thin-walled shell (split tube) located inside the wick tube with the possibility of axial movement. The specified shell covers the wick more tightly than the wick, because has a smaller diameter; this allows you to overcome the friction of the wick along the tube when moving it. Despite the fact that the shell is installed in the wick tube with some clearance, outside the shell the wick spreads and again fits snugly against the walls of the wick tube, preventing the free flow of fuel.

A prerequisite for the operation of the executive part of the movement and fixation mechanism of the wick is to maintain a certain distance between the upper edges of the wick tube and the shell inside. The specified gap should be the greater, the less tightly laid the wick and the higher the thermal conductivity of the material of the wick tube. The applicant experimentally established that in any case, the specified interval should not be less than the smallest cross-sectional size (diameter) of the channel of the wick tube, otherwise there is a noticeable leakage of fuel in the inverted position of the lamp and overheating of the upper part of the shell of the movement mechanism during lamp operation.

The length of the sheath for moving the wick can be chosen over a wide range depending on the accepted density of the wick laying, the selected materials and the roughness of the surfaces of the sheath and the channel of the wick tube. The applicant experimentally established that the shell with a length shorter than the diameter of the channel of the wick tube works with a noticeable slip of the wick when moving down, therefore, after several up-down movements, the wick is in a higher position than the original one and does not move down until the wick tube is cut, and this , as shown above, negatively affects the combustion process. The greater the roughness of the surface of the channel of the wick tube and the lower the roughness of the surface of the shell in contact with the wick, the more pronounced this effect. The longer the shell, the wick's position is adjusted more precisely and more precisely, i.e. the maximum shell length is limited only by the depth of the fuel tank and material saving considerations.

The proposed design of the executive part of the mechanism for moving and fixing the wick can be used for preliminary (on an idle lamp) regulation of the position of the wick and without any drive elements, while changing the position of the wick is achieved by moving the shell along with the wick behind the shell elements protruding from the wick tube.

Additional features of the claimed device

The implementation of the fuel tank in the form of a vessel with a mouth protruding outward facilitates its molding from a single portion of the material (blank), i.e. contributes to the achievement of a technical result.

For the manufacture of a fuel tank can be any material that can be molded, not passing fuel and its vapors and not changing under their influence (metals, glass, plastics). The choice of material is mainly dictated by economic considerations.

The capacity can be made of sheet metal, including mild steel for deep drawing, brass, nickel silver, stainless steel, etc., by drawing the workpiece with subsequent shaped rolling, however, multi-operation technology makes such a container quite expensive.

It is possible to manufacture a metal fuel tank by injection molding from zinc-aluminum, silumin, cast iron and bronze alloys, but it is difficult to obtain a thin-walled product of small weight and cost.

For inexpensive lamps, incl. disposable, molded glass or plastic is preferred. Lamps with a glass fuel tank are widely used, however, they are available for a standard prototype burner with external threads on the burner body and, accordingly, internal threads on the neck of the fuel tank. Since it is difficult to obtain an internal thread on a molded glass, the capacity of such lamps is made with a smooth neck in which a metal adapter sleeve with an internal thread is fixed, i.e. capacity is composite in contrast to the claimed.

Fuel tanks made of non-combustible plastics, in particular low-pressure polyethylene (HDPE) or polyethylene terephthalate (PET), are the most technologically advanced. These materials have a softening temperature of 120 ° C (HDPE) and above 200 ° C (PET), are well formed by blow molding. There is serial equipment for the mass production of various bottles and bottles for drinks, perfumes, etc. from these materials.

The execution of the burner body in the form of a cap with an internal thread in various versions is adapted to a container with an external thread on the neck. The preferred type of thread is used in PET bottles for the packaging of carbonated drinks (trapezoidal, diameter 27 mm) and the most widespread. This makes it possible to use standard metal or polyethylene screw plugs, including used bottles and suitable vials as fuel tanks, incl. boo. One of the options is the packaging of fuel when sold directly in PET bottles of the required shape, the main limitation is the depth of the bottle is not more than 150 mm, associated with the possibility of lifting the fuel through the wick.

The simplest (one-time) burner embodiment is a standard screw plastic plug with a crown attached on top in the form of an inverted multi-petal cap, inside of which a reflective cap is elastically mounted. This design involves either an unregulated wick (lamp-candle), or a wick that is manually controlled on an idle lamp directly by the actuator (shell inside the wick tube), or a drive located inside the fuel tank, because it is difficult to construct any drive inside this type of burner.

If it is necessary to obtain a flame of a flat shape, as in the prototype lamp, then the wick tube of the burner should have a section in the form of a rectangle, oval or ellipse. The material for the manufacture of this type of wick tubes in the inventive device can be highly alloyed stainless steels with a thermal conductivity of 12-15 W / m · K. Materials with a thermal conductivity of more than 60 W / m · K (carbon steels, brass, nickel silver, etc.) do not allow reliable sealing of the connection of the wick tube to the burner body, except for soldering or welding to the metal body, but in this case there is excessive heating of the lower part of the body burners and the zone of fuel evaporation in the tube is “lubricated”.

More fully realize the advantages of the proposed device allows the wick tube of glass, porcelain, high alumina and other sintered ceramics with a thermal conductivity of 0.8-3.5 W / m · K. Products of this kind with a non-circular channel cross-sectional shape are difficult in technology, especially in terms of ensuring the constancy of the cross-sectional length, therefore it is preferable to use cylindrical tubes.

It should be noted one more feature of the claimed device: inside the fuel tank there is always a slight (less than 5 Pa) residual pressure, which somewhat drives the fuel vapor into the combustion zone. As a result of this effect, a flat-shaped torch tends to lose stability and twist, and a long narrow torch burns more steadily. Due to the good evaporation of fuel, it becomes advisable to achieve an increase in the area of the torch, not due to the width, but due to the length; this allows you to reduce the cross section of the combustion zone and, accordingly, to reduce the diameter of the hot zone of the protective glass, including use cylindrical glass without broadening in the combustion zone.

The experiments showed that with a channel diameter of the wick tube 6–7 mm and a maximum torch height in the combustion zone of 30–40 mm, cylindrical protective glass with a diameter of 38, 32, 27, and 25 mm and a height for protection against wind of at least 4 diameters. The indicated diameters of the glass tube are widely used in the production of fluorescent gas-discharge lamps (LB / LD range 80, 40, 30 and 25 W, respectively). Used lamps are subjected to vacuum annealing to remove mercury (demercurization), after which the disinfected glass tubes are broken and discarded. Since the phosphor located on the inner surfaces of the tubes after demercurization is harmless and can be easily removed, it is advisable to use these tubes for the manufacture of protective glasses of the inventive lamp.

A glass of cylindrical shape makes it easy to transform the lamp into a lantern, for this a second crown can be attached to the burner crown by means of additional racks, which is located inverted relative to the first. The protective glass in this case turns out to be elastically pinched by the petals of both crowns above and below. A handle for carrying a lamp-lantern and a protective cap can be attached to the second crown, which disperses hot products of fuel combustion and protects the hand when carrying a working device. The protective glass in this embodiment is inserted either from above through the second crown with the handle and protective cap removed, or from the side through the racks. Note the difference between this design and the known one, in which the racks connecting the upper latch of the protective glass with the lower are fixedly attached to the fuel tank, which does not allow you to arbitrarily change the capacity.

Specific versions of the drive part of the movement and fixation mechanism of the wick are selected depending on the purpose and price class of the device. What is common is the required depth of regulation of the position of the wick, it is 8-10 mm from the lowest position when the flame is extinguished, to the highest, when the flame has maximum intensity without noticeable burning of the wick. With the destruction of the working end of the wick, it must be tightened with tweezers or with your fingers a little higher, while the drive part of the mechanism should be in its highest position.

In traveling versions of the device, where maximum protection against fuel leakage during transportation is required, it is desirable to use a mechanism with a transmission element that extends into the fuel tank. The most reliable, but also the most expensive, is the design with a screw drive through a magnetic coupling, which provides transmission of movement through the wall of the fuel tank or burner body without breaking the continuity. Variants with a rack and pinion and crank-link drive through a draft extending into the tank are somewhat less reliable, as it is necessary to seal the movable drive elements either in the burner body or in the wall of the fuel tank.

If the drive transmission element is pulled out of the working cut of the wick tube, the inner volume of the lamp is sealed as well as in the version with the magnetic clutch, but the cut of the wick tube is more difficult to seal in the stowed position. In any of the options, a technical result is achieved, only the level of complexity of the device and the costs of its production differ.

The foregoing is illustrated by figures 1-6, but is not limited to them.

List of drawings

Figure 1 shows a General view of the lamp with a burner of metal and the direct regulation of the wick, front view, combined with local incisions; figure 2 - lamp burner with a plastic housing, pressed into a metal crown, and a crank-rocker mechanism for adjusting the wick with the output of the transmission element of the mechanism inside the fuel tank, front view, combined with a local section and remote sections; figure 3 - burner lamp unit with a plastic burner body, patch crown and screw mechanism for regulating the wick, front view, combined with a local incision; figure 4 - burner with a rack-and-pinion mechanism for adjusting the wick and the output of the transmission element of the mechanism to the outside of the fuel tank, front view, combined with a local section; figure 5 - lamp-lantern with double-sided glass retention, front view; figure 6 is a photograph of examples of lamp lamps with fuel tanks of various materials.

Information confirming the possibility of carrying out the invention

The device shown in Fig. 1 contains a fuel tank 1, a burner body 2, a wick tube 3, a wick 4, an actuator (sheath) of the wick moving mechanism 5, a reflective cap 6, a crown 7, a protective glass 8, a plug of the wick tube 9, a drive element of the movement mechanism of the wick 10, a sealing gasket 11 between the neck of the fuel tank 1 of the burner body 2, a sealing sleeve 12 between the body of the burner 2 and the wick tube 3. The crown of the burner 7 is fixed to the housing 2 and contains holes 13 for but air and the elastic beams 14 holding the cover glass. The reflective cap 6 is fixedly mounted in the crown 7 and contains openings for air supply 15. The actuator of the wick movement mechanism 5 is made in the form of a cylindrical thin-walled shell placed inside the wick tube 3 with the possibility of axial movement and the transmission rod 16 connected to the drive element 10. Moving the shell 5 up is limited by the bend of the rod 16, down - by the bottom of the fuel tank 1. The distance from the lower cut of the wick tube 3 to the bottom of the fuel tank 1 is 1-1.5 of the outer diameter of the wick th tube 3.

The device operates as follows. Before starting work, a sheath 5 with a rod 16 and a drive 10 is inserted into the wick tube 3, then the wick 4 is inserted through the tube 3 and the sheath 5. After that, fuel 17 is poured into the fuel tank 1, the burner housing 2 is tightly screwed onto the neck of the tank 1, the tank is somewhat folds over and shakes to impregnate the wick 4 with fuel. Then the lamp is installed with the burner up, a flame source is brought to the upper cut of the wick 4, and the combustion of fuel begins, after which the protective glass is immediately installed. Immediately after ignition, the lamp burns for 30-50 seconds with a gradual increase in flame, during this time the protective glass and the wick tube are heated. To extinguish the lamp, you must either remove the glass and blow out the flame from the side, or blow strongly from top to bottom inside the glass. After cooling the wick tube 3 for 3-5 minutes, a plug 9 is put on its slice and the lamp is transferred to the transport position.

The device depicted in figure 2, contains elements similar to the device in figure 1, denoted by the same position numbers. The burner body of the lamp 2 is made of plastic and pressed into the crown 7. The petal part of the crown 14 can be made either as a separate part, as shown in Fig. 2 by solid lines, or along with the crown, shown by a dotted line. The wick tube 3 is installed in the housing 2 motionless with significant interference, ensuring a tight connection and preventing the movement of the tube 3 relative to the housing 2 during adjustment of the wick.

The wick control drive includes a rod 18 with a shaft 19 fixedly connected to the rod 16. The rod 16 is integral with the link 20 and the supporting ring 21 and is axially movable relative to the housing 2. The movable connection of the rod 16 and the housing 2 is made with a slight interference fit, providing tightness of the connection. In the groove of the scenes 20 with the possibility of rotation placed the crank 22, made at the same time with the handle 23.

The device operates as follows. To change the position of the wick, it is necessary to turn the handle 23, while the crank 22 acts on the wings 20, while the rods 16 and 18, the sheath 5 and the wick (not shown in FIG. 2) are moved.

The device depicted in figure 3, contains elements similar to the device in figure 1 and 2, denoted by the same position numbers. The body of the burner of the lamp 2 is made of plastic, a fused cap 7 of the crown is fixedly attached to it by a fusible rivet 24. The reflective cap 6 is elastically pinched between the petals of the crown 7.

The wick control drive includes a magnetic coupling, consisting of permanent magnets 25 and 26, mounted in pairs in the outer coupling half 27 and the inner coupling half 28. The outer coupling half 27 is rotatably mounted on the fuel tank 1. The inner coupling half 28 consists of two brackets that can be rotated by means of the axes 33 to the nut 30. In the inoperative position, the brackets 28 of the inner coupling half can be positioned along the axis, and it is possible to insert them into the fuel tank 1 through the neck. The nut 30 is rotatably mounted on the split sleeve 29, the protrusion of the sleeve 29 and the retaining ring 32 hold the nut 30 from axial movement. The split sleeve 29 is fixedly mounted on the wick tube 3, threaded slots of the hollow screw 31 fixedly connected by the petals are brought out into the sections of the sleeve 29 34 with rod 16 and sheath 5.

The device operates as follows. After screwing the housing 2 onto the neck of the fuel tank, the outer half-coupling 27 of the magnetic coupling is installed, then the device is turned over, while the magnets 25 and 26 are attracted to each other and the magnetic coupling is ready for operation. When turning the outer coupling half 27, the nut 30 comes into rotation and moves the screw 31 together with the rod 16 and the sheath 5, which moves the wick (not shown in Fig. 3).

The device depicted in figure 4, contains elements similar to the device in figure 1-3, indicated by the same position numbers. The burner housing of the lamp 2 is made of plastic, installed with an interference fit in the all-metal crown 7.

The wick control drive includes an actuating element (shell) 5 connected by rods 16 extending outward of the fuel tank with a gear rack 35 made integrally with supporting rings 36 and arranged for axial movement. Gear rack 35 is engaged with gear 38 mounted on shaft 37, which is rotatable. The gear wheel 38 is enclosed in the cheeks 39, preventing the rotation of the rack 35 around the axis of the wick tube 3.

When the wheel 38 is rotated by means of a handwheel located outside the crown 7 (not shown in Fig. 4), the assembly "rail 35 - of the rod 16 - sheath 5" moves and moves the wick (not shown in Fig. 4).

The device depicted in Fig. 5, in addition to the elements indicated in Figs. 1-4, contains a second (upper) crown 40, which is fixedly attached to the crown 7 by means of struts 41 through welded points 45. To the upper crown 40 by means of locks 43 disconnect the cover 42 with the transport ring 44. A protective glass 8 is placed between the crowns 7 and 40 with the possibility of axial movement, limited downward by the bottom of the crown 7 and upward by the cover 42.

In order to replace the glass 8, it is necessary to remove the cover 42, lower the glass, install the cover 42 back. To ignite the lamp, the glass 8 must be lifted all the way to the cover 42, while access to the wick 4 is opened, after ignition the glass must be lowered all the way down.

Examples

Figure 6 presents photos of prototypes of lamps with various options for fuel capacity and burner assembly.

Pos. 1-1. Fuel tank made of low pressure polyethylene (used detergent bottle) with a volume of 300 ml and a height of 80 mm. Burner with a plastic housing pressed into a metal prefabricated crown. Glass wick tube with an outer diameter of 8 mm and an inner diameter of 6 mm. Cotton wick made of yarn No. 10 × 12 × 8, linear density 9600 tex, diameter of unrestricted wick about 12 mm (the ratio of the cross-sectional area of the channel of the wick tube and wick 25%). Safety glass with a diameter of 38/36 mm and a length of 150 mm (from waste gas discharge lamp LD / LB-80). Burning time with full refueling with a flame 25-30 mm high for 35-40 hours.

Pos. 1-2. Glass fuel tank (used ink bottle) with a volume of 100 ml, a height of 50 mm. Burner with plastic housing and false crown, porcelain wick tube. Glass with a diameter of 32 mm, a length of 130 mm. Burning time about 12 hours.

Pos. 1-3. The fuel tank is made of polyethylene terephthalate (used bottle from under vinegar) with a volume of 350 ml and a height of 150 mm. Burner with plastic housing and patch crown. Glass with a diameter of 30 mm, a length of 120 mm. Burning time more than 40 hours, at the end of combustion a stable flame with a height of not more than 20 mm, the maximum height of the bottle.

All devices shown in Fig.6, successfully passed testing for a long (24 hours or more) burning, falling from a height, the effects of vibration and shock, storage in an arbitrary position.

As a result of the invention, a device safe for storage and operation, convenient to use and with low fuel consumption, is created.

Claims (16)

1. A lamp with a wick burner, consisting of a fuel tank and a burner, comprising a housing, a wick tube, a wick, a wick moving and fixing mechanism, a reflective cap and a crown with a protective glass fixed therein with the possibility of extraction, characterized in that the fuel tank is made whole from one workpiece; fixed and movable connections between the fuel tank, the burner body, the wick tube and the transmission elements of the wick moving mechanism are sealed; the wick tube is made of a material with low thermal conductivity and is equipped with a plug that tightly closes its outer end when inoperative; the inner end of the wick tube is placed as close to the bottom of the fuel tank as possible; the cross-sectional area of the channel of the wick tube is from 10 to 80% of the cross-sectional area of an unrestricted wick; the actuator of the movement and fixation mechanism of the wick is made in the form of a thin-walled shell, the length of which in the axial direction is greater than the smallest diameter of the channel of the wick tube, placed inside the wick tube with the possibility of axial movement, so limited that the distance from the upper edge of the shell to the outer end of the wick tube the smallest diameter of the channel of the wick tube. 2. A lamp with a wick burner according to claim 1, characterized in that the fuel tank is made in the form of a vessel with a mouth protruding outward, on which an external thread is placed. 3. The lamp with a wick burner according to claim 1, characterized in that the fuel tank is made of glass or plastic that does not support combustion, in particular low-pressure polyethylene or polyethylene terephthalate. 4. The lamp with a wick burner according to claim 1, characterized in that the burner body is made in the form of a cap with a hole in which a wick tube is installed through the sealing element, while the thread is made on the inner side surface of the cap and placed on the inner surface of its end a sealing element interacting with the edge of the neck of the fuel tank. 5. The lamp with a wick burner according to claim 1, characterized in that the burner body is made of plastic that does not support combustion, while the wick tube is installed in the bore of the housing with an interference fit, and the sealing element interacting with the edge of the neck of the fuel tank is made integral with case in the form of a wedge-shaped annular protrusion. 6. A lamp with a wick burner according to claim 1, characterized in that the burner body is integral with the crown or is installed in an interference fit crown. 7. The lamp with a wick burner according to claim 1, characterized in that the crown is attached to the burner body in the form of an inverted cap, the side walls and the bottom of which are separated with gaps into separate petals, and a reflective cap containing a hole for the outlet of the wick tube and holes for the passage of air, elastically pinched between the petals of the crown. 8. The lamp with a wick burner according to claim 1, characterized in that the wick tube is made of glass or sintered oxide ceramic and has a cylindrical shape. 9. The lamp with a wick burner according to claim 1, characterized in that the actuating part of the mechanism for moving and fixing the wick is connected to the drive part of the mechanism by at least one transmission element that extends into the fuel tank. 10. The lamp with a wick burner according to claim 1, characterized in that the actuating part of the mechanism for moving and fixing the wick is connected to the drive part of the mechanism by at least one transmission element that extends outside the fuel tank. 11. The lamp with a wick burner according to claim 1, characterized in that the drive part of the mechanism for moving and fixing the wick is located inside the fuel tank and is made in the form of a kinematic pair, including a screw and a nut, while one of the elements of the kinematic pair is connected with the moving part of the mechanism located outside the fuel tank through a magnetic clutch. 12. The lamp with a wick burner according to claim 1, characterized in that the drive part of the mechanism for moving and fixing the wick is located outside the fuel tank and is made in the form of a kinematic pair including a gear wheel and a gear rack. 13. The lamp with a wick burner according to claim 1, characterized in that the drive part of the mechanism for moving and fixing the wick is located outside the fuel tank and is made in the form of a kinematic pair, including a crank and a link. 14. The lamp with a wick burner according to claim 1, characterized in that the protective glass has the shape of a hollow cylinder. 15. The lamp with a wick burner according to claim 1, characterized in that the protective glass is made from waste tubes of spent fluorescent discharge lamps, subjected to demercurization and removal of the phosphor. 16. The lamp with a wick burner according to claim 1, characterized in that its burner contains a second crown mounted in an inverted position relative to the first crown and fixedly attached to it by at least two uprights.

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