NO953940L - Candle holder - Google Patents

Description

The invention relates to a holder for candles and the like, as appears from the introductory part of patent claim 1.

Background

The danger and disadvantages of burning candles dare to be known. The candle can burn all the way down to the candlestick and ignite flammable material nearby, or liquid candle wax runs off the candle and burns onto the candlestick and e.g. table and tablecloth. Accordingly, a need exists for a holder of this kind which at least reduces these disadvantages.

Purpose

The purpose is therefore to provide a new holder for candles and the like which avoids spillage from drained candles to the surroundings and which extinguishes itself before the candle has burnt down completely.

The invention

These objects are achieved with a holder according to the characterizing part of patent claim 1. The invention relates to a holder for candles and correspondingly comprising a generally elongated wind-protecting generally cylindrical body, such as a transparent glass tube, with an inner transverse dimension greater than the outer diameter of a candle in question . The tube has an upper end that is open and a lower end that is closed. The lower end may be closed by itself or be closed by a separate member, such as a socket.

According to the invention, the lower end of the pipe is provided with three continuous, generally elongated air openings which are evenly distributed around the circumference of the pipe member and placed in the same position in relation to the longitudinal axis of the pipe member.

The total area of the three air holes is approximately 1/3 of the area of the light opening for the pipe member taken in the cross section of the latter. The air openings are designed as relatively wide slits whose longitudinal axis is inclined in relation to the longitudinal axis of the pipe body. All the slots slope in the same direction. The direction of inclination is not significant, and the slits can slope upwards in the direction to the left as well as to the right seen diametrically on the pipe member. It has been shown that a preferred angle of inclination between the normal to the longitudinal axis of the tube member and the longitudinal axis of the air opening is approximately 60°. Furthermore, the lower end of each air hole is narrower than its opposite upper end, thus forming a sole-like shape.

The position of the air holes in the axial direction of the pipe member is not essential, but in order to achieve maximum utilization of the light, the air holes are preferably located near the lower end of the pipe member and just above the base surface.

In a preferred embodiment, the tube member is formed from a transparent glass tube with an open lower end for fixing in a fireproof base provided with a corresponding circular groove with a longitudinal axis perpendicular to the lower surface of the base. In order to establish a secure and stable attachment for the light, it is preferred that the base is provided with a cylindrical outlet with a main axis that coincides with the longitudinal axis of the pipe member. In this way, it will also be achieved that the light projects generally coaxially with the pipe member and produce an optimal effect directly on the flame of the rotating air flow during the extinguishing phase, which is described in more detail below. Alternatively, the base can be provided with a pointed needle member onto which the lower end of the light can be threaded.

The ratio between the inner diameter of the pipe member and the diameter of the candle is not significant, but the free annular space that is established between the inner wall of the pipe member and the candle should be sufficiently large so that a sufficiently large air flow is supplied to maintain the combustion in the candle flame and so that it does not disruptive flow occurs at the flame itself before the extinguishing phase.

In use, a candle is guided down into the holder, after which the light is lit. In the ordinary burning phase, the air holes ensure a sufficient supply of oxygen to the burning flame. Ahead of the end of the burning phase, i.e. when the light burns down towards the openings in the lower part of the tube, the flame front will be cycloned. This effect leads to more direct intake of air towards the focal point. This results in an increased burning rate and candle consumption. During this short period, a longer wick with a flapping burning sound is created. Furthermore, the burning of starch, which has given the wick good nourishment, decreases, and the flame is pushed all the way to the top. The wick has now reached the extinguishing point at the upper edge of the air inlet holes. The achievable extinguishing result is enhanced because minimal air can enter the pipe from the lower end part of the pipe member below the openings.

The increased kerosene consumption in the burning phase is a result of high air flow speed towards the burning point. This is important to create a longer wick. As the candle melting decreases at a lower level, the wick does not receive sufficient nourishment in relation to the air pressure at the top of the wick top. The result is a dry and charred wick top which contributes to the light going out. The invention has also been shown to work outdoors with turbulent air currents. The invention is hereinafter illustrated with reference to figures, where

figure 1 shows in axial cross-section a holder according to the invention mounted in a base, and figure 2 shows the holder in figure 1 in cross-section along the line II-II.

Figure 1 illustrates a preferred embodiment of the holder according to the invention, where the pipe member consisting of a cylindrical transparent glass tube with an internal diameter of 38.5 mm is indicated by 1. It should be added that the respective components in Figures 1 and 2 are not drawn to the correct scale. The length of the glass tube is not critical and can be e.g. 280 mm. A plinth 2 made of stone is provided with a circular recess 6 with a depth of approximately 20 mm for receiving the lower end of the glass tube 1, so that this stands supported and ventilated in the plinth. The outlet's longitudinal axis projects perpendicular to the support surface of the plinth. flat underside. A candle 3 of the Tyrilys type with a diameter of 20 mm and a length of approximately 210 mm is placed concentrically with the glass tube 1, and to establish a support for the candle, its lower end is led down into a corresponding cylindrical recess 5 in the base 2.

Sole-shaped air holes, indicated in Figure 1 by the shaded field 4a, are located at a distance of approximately 25 mm from the bottom of the outlet 5 in the plinth or the lower end of the glass tube, so that the lower end of the air hole protrudes approximately 5 mm above the plinth surface. The air hole 4a slopes approximately 60° upwards and to the right in the figure. Corresponding air holes 4b and 4c are located at approximately the same height in the axial direction of the glass tube and at the same mutual distance from the air hole 4a, as can be seen from figure 2.

When the candle has burned down and extinguished by itself, the glass tube 1 can be released from the base 2, and the candle 3 can thus be easily removed.

Claims (4)

1. Holder for candles and the like comprising a generally elongate and cylindrical wind-shielding member (1), such as a transparent glass tube, having an inner transverse dimension greater than the outer diameter of a candle (3) or equivalent for placement within and generally concentric with the pipe member (1), whereby the pipe member (1) has an upper end which is generally open and a lower end which is closed, characterized in that the lower end of the pipe member (1) is provided with at least three continuous and generally sole-shaped openings (4a, 4b, 4c) distributed at a generally equal distance around the circumference of the pipe member (1) and in the same position seen in the longitudinal axis of the pipe member (1), and each opening (4a, 4b, 4c) is inclined in relation to the longitudinal axis of the pipe member whereby the lower end section of each opening is narrower than its opposite upper section, and the total area of all three openings (4a,4b,4c) is about 1/3 of the cross-sectional area of the pipe member (1). 2. Holder according to claim 1, characterized by the fact that the lower part of the pipe member (1) is folded down into a corresponding circular outlet (6) in a refractory plinth (2), whereby the longitudinal axis of the outlet is arranged generally perpendicular to the support surface of the plinth, in order to establish a seal against the supply of air from the lower end of the pipe member (1). 3. Holds according to claim 2, characterized in that the upper side of the base (2) is provided with a generally cylindrical outlet (5) arranged generally concentrically with the outlet (6) for receiving the light (3). 4. Holder according to one of claims 1 to 3, characterized by each air hole (4a, 4b, 4c) having an angle of inclination between the normal to the longitudinal axis of the pipe member (1) and the longitudinal axis of the air opening of approximately 60°.