CN201093202Y - Combined light source mine lamp - Google Patents

Abstract

The utility model discloses a combined light source safety lamp which comprises a lamp cap shell, a main light source lamp and a king lamp light-reflecting cup. The main light source lamp is fixed inside the king lamp light-reflecting cup and positioned at the center of the bottom part of the inner cavity of the shell, at least two assistant light source lamps are arranged at the periphery of the king lamp light-reflecting cup, each assistant light source lamp is provided with an independent assistant lamp light-reflecting cup, and the assistant light source lamp is positioned at the focus position of the assistant lamp light-reflecting cup. In the utility model, the assistant light source lamp is installed at the focus position of the assistant lamp light-reflecting cup, after the assistant light source lamp turns on power, the paraboloid of the assistant lamp light-reflecting cup can reflect the ray irradiated on the paraboloid in parallel, thereby increasing the utilizing rate of light and forming a facula with a suitable size, and obtaining better illuminating effect when irradiating at a close range.

Description

The combined light source mine lamp

Technical field

The utility model relates to a kind of mine lamp, particularly relates to a kind of combined light source mine lamp.

Background technology

Mine lamp is a lighting used when the operation of mining area, existing mine lamp mainly contains two kinds: adopt common bulb illumination and utilize light emitting diode (light-emmitting diode, be called for short LED) illumination, adopt bulb old-fashioned mine lamp since its in service life shortcoming such as weak point, poor stability be eliminated just gradually, advantage makes is developed as the lighting engineering of luminescent device with LED and LED low-power, brightness height and life-span be long etc., uses the cold light source mine lamp of LED also to obtain swift and violent development thereupon.

The LED mine lamp has many types, when selecting, generally is according to the different requirements of mining area to illumination, promptly needs the different requirements of long drive or close-range shot, selects the LED mine lamp of suitable species.In the prior art, the king light that the LED mine lamp carries out illumination at a distance generally is a high-power LED that is installed on its reflector (being paraboloidal usually) focus place, and its light that sends becomes substantially parallel optic angle degree to penetrate; And the auxilliary lamp that floor light is used generally is the LED that is installed on one or several middle low power at the non-focus of king light reflector place, be used for throwing light on nearby, the defective of this mounting means is: because the LED that uses as auxilliary lamp is not installed on the optical focus, its radiative utilization rate is lower and can't pool the hot spot of suitable size, so that this LED mine lamp can not reach good illuminating effect when shining nearby.

The utility model content

The purpose of this utility model is to provide a kind of combined light source mine lamp, not only is fit to the mining area and throws light on nearby, and be fit to the illumination of distant place, and it is stable to shine hot spot simultaneously.

The purpose of this utility model realizes by following technical scheme: a kind of combined light source mine lamp, comprise shell of lamp base, main light source lamp and king light reflector, the main light source lamp is fixed in the king light reflector and is positioned at housing intracavity bottom center, it is characterized in that described king light reflector around be provided with at least two secondary light source lamps, each secondary light source lamp is provided with independently auxilliary separately lamp reflector, and described secondary light source lamp is positioned at the focus place of auxilliary lamp reflector.

Described auxilliary lamp reflector symmetry or be regularly arranged and be distributed in around the king light reflector, auxilliary lamp reflector is parabolic to be separated with king light reflector parabola or to be preced with mutually.

The optical axis of described each auxilliary lamp reflector is parallel with the optical axis of king light reflector.The light that this kind set-up mode makes auxilliary lamp reflector reflect is outranged, and is suitable for throwing light at a distance in the mining area.

Described each auxilliary lamp reflector is centroclinal to housing, and the optical axis of the optical axis of described each auxilliary lamp reflector and king light reflector intersects.The ray intersection that the light that each auxilliary lamp reflects sends with the main light source lamp in the certain distance scope has increased the utilization rate of light, has strengthened the effect of illumination, can pool the hot spot of suitable size, is convenient to illumination nearby.

Described each auxilliary lamp reflector is to the lopsidedness setting, and the axis of each auxilliary lamp reflector is parallel to each other, and angled with the axis of king light reflector.The ray intersection that reflection ray that has in each auxilliary lamp and main light source lamp send, the light that the reflection ray that has then more sends away from the main light source lamp, such setting can strengthen illuminating effect, also can increase the range of exposures of light, thereby increase field of illumination of the present utility model, be convenient to the large-area illumination in mining area and use.

Described each auxilliary lamp reflector is around rounded, the triangle of king light reflector shape arranged evenly, square or rectangle.

Described shell of lamp base upper opening place circumference connects an implosion guard, and its junction is provided with sealing fixture.

Described shell of lamp base bottom is equipped with rechargeable battery set.Do not need external power supply and carry out work, as long as after rechargeable battery set charges electricity, even the utility model also can independently use under the situation of external power supply not having.

Compared with prior art, the utlity model has following significant effect:

1, the secondary light source lamp is installed in the focus place of auxilliary lamp reflector, behind secondary light source lamp electrified light emitting, the parabolic light that can will be mapped on it of auxilliary lamp reflector reflects abreast, thereby increase the utilization rate of light and the hot spot of formation suitable dimension, make and when shining nearby, acquire the better illumination effect.

2, the shell of lamp base bottom is equipped with rechargeable battery set, make the utility model not need external power supply just can carry out work, as long as after rechargeable battery set charges electricity,, and then alleviated operating personnel's burden even also can independently not use under the situation of external power supply having.

3, beyond the standby power source of secondary light source lamp as the main light source lamp, the different set-up mode of each auxilliary lamp reflector makes that the light that is sent after secondary light source lamp and the acting in conjunction of main light source lamp is different, can whether intersect and the different illuminating effects of acquisition with the light that the main light source lamp sends according to the light that auxilliary lamp reflector is reflected, select suitable set-up mode, to satisfy different demands, make the utility model both easy to use and very practical in the mining area illumination.

4, the arrangement mode of each secondary light source lamp does not have influence substantially to the position and the magnitude range of irradiation hot spot, so the selection of the arrangement mode of each secondary light source lamp is more, can select economical and practical mode.

Description of drawings

The utility model is described in further detail below in conjunction with the drawings and specific embodiments.

Fig. 1 is the structural representation of the utility model embodiment one;

Fig. 2 is the cross-sectional view of Fig. 1 the utility model embodiment one;

Fig. 3 is the structural representation of the utility model embodiment two;

Fig. 4 is the cross-sectional view of Fig. 3 the utility model embodiment two;

Fig. 5 is the structural representation of the utility model embodiment three;

Fig. 6 is the cross-sectional view of Fig. 5 the utility model embodiment three.

The specific embodiment

Embodiment one

As Fig. 1, shown in Figure 2, the utility model comprises and is bowl-shape and the rim of a bowl is the rectangular shell of lamp base 1 of fillet, circuit board 9 be in shell of lamp base 1 bottom centre position and with rechargeable battery set 10 box bodys one end riveted joint is housed or other is connected, this rechargeable battery set 10 is communicated with circuit board 9, the other end of rechargeable battery set 10 box bodys is riveted mutually with above-mentioned shell of lamp base 1 bottom, cup-shaped king light reflector 2 and the main LED lamp 3 that is tightened against its intracavity bottom gonglion position are close together with circuit board 9, main LED lamp 3 is communicated with circuit board 9, around king light reflector 2, be distributed with cup-shaped four auxilliary lamp reflectors 7 and it is positioned near four fillets of shell of lamp base 1, four auxilliary LED lamps 6 are tightened against auxilliary lamp reflector 7 intracavity bottom gonglion positions and are communicated with circuit board 9, implosion guard 11 is pressed in the rim of a cup place of king light reflector 2 and auxilliary lamp reflector 7 downwards, Cap casing 4 is installed on the junction of shell of lamp base 1 upper opening and implosion guard, and this junction is with sealing fixture 8, the sealing function that is isolated from the outside is played in shell of lamp base 1 inside, and implosion guard is pressed in shell of lamp base 1 upper opening place, play fixation.King light reflector 2 is parabola with the surface of auxilliary lamp reflector 7.

In the present embodiment, the optical axis of four above-mentioned auxilliary lamp reflectors 7 and the optical axis of king light reflector are parallel shape, after main LED lamp 3 and auxilliary LED lamp 6 electrified light emittings, the light that main LED lamp 3 and auxilliary LED lamp 6 are mapped on the reflector separately comes out through reflector parabolic reflector separately, because main LED lamp 3 and auxilliary LED lamp 6 all are positioned at the focus place of reflector separately, so all being parallel rays, the light that reflects penetrates, emitted like this light can be outranged, and can form stable hot spot, be applicable to the illumination of carrying out the distant place in the mining area.

Embodiment two

As Fig. 3, shown in Figure 4, the difference of present embodiment and embodiment one is that four auxilliary lamp reflectors 7 are to the centroclinal setting of housing, this setup makes the optical axis of four auxilliary lamp reflectors 7 and the optical axis of king light reflector 2 intersect, after main LED lamp 3 and auxilliary LED lamp 6 electrified light emittings, the light that main LED lamp 3 and auxilliary LED lamp 6 are mapped on the reflector separately is parabolic and reflect through reflector, because auxilliary lamp reflector 7 is to the centroclinal setting of housing, the ray intersection that the light that makes auxilliary lamp reflector 7 reflect sends with king light in the certain distance scope, can pool the hot spot of suitable size, be convenient to illumination nearby in the mining area.

Embodiment three

As Fig. 5, shown in Figure 6, the difference of present embodiment and embodiment one is that four each auxilliary lamp reflectors 7 are all to the lopsidedness setting, promptly the axis of four auxilliary lamp reflectors 7 is parallel to each other, and it is angled with the axis of king light reflector 2, the ray intersection that light that reflects that being arranged so that like this has in the auxilliary LED lamp 6 and main LED lamp 3 send, thereby produce stable hot spot, strengthen illuminating effect; The light that the light that reflects that has then more sends away from main LED lamp 3, thereby the range of exposures of the light that increase is sent are convenient to the large-area illumination use in the mining area.

The utility model is not only to adopt above-mentioned three kinds of embodiments, and above-mentioned three kinds of embodiments also can be used in combination, and for example the optical axis with the king light reflector that has of the optical axis of each auxilliary lamp reflector is parallel, and the auxilliary lamp reflector that has is centroclinal to housing; The auxilliary lamp reflector 7 that perhaps has is to the lopsidedness setting, and their axis is parallel to each other, and the optical axis of the auxilliary lamp reflector that has is parallel with the optical axis of king light reflector.So the utility model is not limited to above-mentioned various embodiment, but the combined deformation of other more above-mentioned embodiment is arranged, all belong to protection domain of the present utility model.

The number of auxilliary lamp reflector and auxilliary LED lamp can be adjusted according to actual conditions, it is a plurality of to make two, three, five or six etc., and its shape of arranging around main LED lamp distribution also can be made different changes, for example do regular shape spread patterns such as circular, triangle or square, the spread pattern that changes auxilliary LED lamp does not have bigger influence to irradiation hot spot and range of exposures.Auxilliary LED lamp is distributed in the king light reflector outside, and auxilliary lamp reflector is parabolic and king light reflector parabola can be separated, and also can be preced with mutually.

Generally speaking, auxilliary LED lamp and main LED lamp are provided with on same horizontal plane, and the utility model also can be arranged at it on different horizontal planes, and the mounting means of this height formula straggly makes irradiation facula position and range of exposures bigger change can not take place.In addition, main LED lamp generally is mounted in the place, focal position of king light reflector, light utilization height that is reflected like this and light pool the hot spot of suitable size easily, and in the utility model, can make winner LED lamp position depart from the focus of king light reflector to some extent in order to reach certain illuminating effect.

When using the utility model, can only use auxilliary LED lamp or only use main LED lamp or the two to use simultaneously, the not bigger variation of the facula position of its irradiation and range of exposures, even the auxilliary LED lamp that has in some auxilliary LED lamps extinguishes because of damage, can considerable influence not arranged to the facula position and the range of exposures of its irradiation yet.

In addition, auxilliary LED lamp and main LED lamp also can use different classes of light source, as other light sources such as organic electroluminescence device or incandescent lamps, also above-mentioned different combination of light sources can be used, and can reach same illuminating effect.

The utility model has very strong adaptability to irradiation area illumination demand, and the utility model is that rechargeable battery set is placed its inside, save external power supply, alleviate user of service's burden significantly, when charging to rechargeable battery set, needs can reach the charging purpose as long as be connected with existing mine lamp charging device by the transition connected mode, after charging electricity, the utility model just can independently use, and is very convenient when throwing light in the mining area.

Claims (9)

1. combined light source mine lamp, comprise shell of lamp base, main light source lamp and king light reflector, the main light source lamp is fixed in the king light reflector and is positioned at housing intracavity bottom center, it is characterized in that: the outer periphery of described king light reflector is equipped with at least two secondary light source lamps, each secondary light source lamp is provided with independently auxilliary separately lamp reflector, and described secondary light source lamp is positioned at the focus place of auxilliary lamp reflector.

2. combined light source mine lamp according to claim 1 is characterized in that: described auxilliary lamp reflector is symmetrical or be regular figure respectively in king light reflector periphery, and auxilliary lamp reflector parabola is separated with king light reflector parabola or is preced with mutually.

3. combined light source mine lamp according to claim 1 and 2 is characterized in that: the optical axis of described each auxilliary lamp reflector is parallel with the optical axis of king light reflector.

4. combined light source mine lamp according to claim 1 and 2 is characterized in that: described each auxilliary lamp reflector is centroclinal to housing, and the optical axis of the optical axis of described each auxilliary lamp reflector and king light reflector intersects.

5. combined light source mine lamp according to claim 1 and 2 is characterized in that: described each auxilliary lamp reflector is to the lopsidedness setting, and the axis of each auxilliary lamp reflector is parallel to each other, and angled with the axis of king light reflector.

6. combined light source mine lamp according to claim 2 is characterized in that: described each auxilliary lamp reflector is around rounded, the triangle of king light reflector shape arranged evenly, square or rectangle.

7. combined light source mine lamp according to claim 1 is characterized in that: described shell of lamp base upper opening place circumference connects an implosion guard, and its junction is provided with sealing fixture.

8. combined light source mine lamp according to claim 1 is characterized in that: described shell of lamp base bottom is equipped with rechargeable battery set.

9. combined light source mine lamp according to claim 1 is characterized in that: described light source is light emitting diode, organic electroluminescence device or incandescent lamp.

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