CN204420885U - A kind of new dyeing device of illuminating lamp - Google Patents

Abstract

The utility model discloses a kind of new dyeing device of illuminating lamp, comprise: dyeing color chips, comprises the pure color color chips that the C color chips of at least one color gradient, the M color chips of at least one color gradient, the colour temperature sheet of at least one colour temperature gradual change of Y color chips of at least one color gradient and at least four colors are different; At least four colour disks, each colour disk is provided with multiple look lattice of rounded distribution; One of them look lattice of each colour disk arrange the one in C color chips, M color chips, Y color chips and colour temperature sheet, and other look lattice arrange pure color color chips; Support, is provided with the first loophole, and the support of these the first loophole both sides is fixed with two spaced fixed axis, each colour disk is articulated in two fixed axis respectively, and the colour disk part be positioned on different fixed axis hides folded; Driving mechanism, drives with each colour disk one_to_one corresponding and is connected.The utility model can enrich the diversified adjustment of light color, and the switch speed of different colours is rapid.

Description

A kind of new dyeing device of illuminating lamp

Technical field

The utility model relates to field of light fittings, particularly relates to a kind of new dyeing device of illuminating lamp.

Background technology

In illuminating illuminating lamp, often need the color adaptation of carrying out bright dipping, to be carried out adjusting ambient atmosphere by color or to produce visual angle difference to human body, can be applicable to the fields such as amusement, eyeshield, medical treatment; Such as stage lighting (also claiming Adjustable head lamp), the diversity of its bright dipping colour switching and the rapid switching of color are even more important, to meet different stage set demands.

The dyeing apparatus (or claiming additive colo(u)r system) of tradition light of stage carries out colour mixture with multiple CMY color chips and/or multiple pure color color chips, each possesses the CMY color chips of dyeing (colour filter) effect and pure color color chips height is staggered, by the mode of rectilinear motion carry out meeting and from motion, form colour mixture with the region of the intersecting when multiple CMY color chips and/or multiple pure color color chips meet, color adaptation is carried out to bright dipping; Wherein, each CMY color chips is provided with color gradient district, to realize the fade effect of colour mixture.But, because the rectilinear motion of CMY color chips and/or multiple pure color color sheet needs to arrange the complicated structure such as guide rod and guide pin bushing, therefore the switch speed of its color is slower, also easily there is stuck situation and cannot colour mixture, simultaneously, it only can realize the colour mixture between each CMY color chips or the colour mixture between each CMY color chips and pure color color chips, and the diversity of color is good not, is difficult to the demand of satisfied current stage set.In addition, traditional dyeing apparatus generally possesses multiple CMY color chips and multiple pure color color chips, and each color chips height is staggered, and occupies larger space, makes the overall volume of lighting comparatively large, is unfavorable for transport and installs.

Utility model content

In order to overcome the deficiencies in the prior art, the purpose of this utility model is the new dyeing device providing a kind of illuminating lamp, can enrich the diversified adjustment of light color, and the switch speed of different colours is rapid.

The purpose of this utility model adopts following technical scheme to realize:

A new dyeing device for illuminating lamp, comprising:

Dyeing color chips, comprises the pure color color chips that the C color chips of at least one color gradient, the M color chips of at least one color gradient, the colour temperature sheet of at least one colour temperature gradual change of Y color chips of at least one color gradient and at least four colors are different;

At least four colour disks, each colour disk is provided with multiple look lattice of rounded distribution, and the Se Genei one_to_one corresponding of each colour disk arranges dyeing color chips, and the color chips that dyes in each colour disk is different; One of them look lattice of each colour disk arrange the one in C color chips, M color chips, Y color chips and colour temperature sheet, and other look lattice arrange pure color color chips;

Support, be provided with the first loophole, the support of these the first loophole both sides is fixed with two spaced fixed axis, each colour disk is articulated in two fixed axis respectively, and the direction, axis of each colour disk fixed axis in office is spaced, the colour disk part be positioned on different fixed axis hides folded, formed and supply illuminating lamp bright dipping to pass and fold position to the screening of bright dipping dyeing, it is relative with the first loophole that position is folded in this screening;

Driving mechanism, drives with each colour disk one_to_one corresponding and is connected, for drive one by one each colour disk independently with each self-corresponding fixed axis for central axis.

Preferably, the area of described pure color color chips is less than the area of C color chips or M color chips or Y color chips or colour temperature sheet.

Preferably, described colour disk is also provided with the transparent region directly passed for bright dipping, adjacent look lattice separate by this transparent region.

Preferably, described colour disk is provided with hollow hole, and this hollow hole forms described transparent region.

Preferably, described support comprises first substrate, second substrate and multiple first support bar, described first loophole is opened in first substrate and second substrate, and first substrate and second substrate are affixed and form accommodation cavity for holding each colour disk by the first support bar; One end and the first substrate of fixed axis are affixed, and the other end and the second substrate of fixed axis are affixed.

Preferably, described driving mechanism comprises the motor identical with the quantity of colour disk, driving gear and driven gear, driving gear one_to_one corresponding is fixed on the output shaft of each motor, and driven gear one_to_one corresponding is fixed on the middle part of colour disk, and driving gear engages with driven gear.

Preferably, described colour disk is four, is articulated in two fixed axis respectively between two; Described driven gear is fixed on the lateral surface of each colour disk; Described first substrate and second substrate have the perforation of passing for driving gear.

Preferably, the new dyeing device of described illuminating lamp also comprises the 3rd substrate, light source fixed head, multiple second support bar and multiple 3rd support bar, 3rd substrate and light source fixed head offer the second loophole respectively, this second loophole is relative with the first loophole position, wherein two motors are fixed on the 3rd substrate, and another two motors are fixed on light source fixed head; It is affixed that 3rd substrate and light source fixed head pass through the second support bar interval; Support through the 3rd support bar and light source fixed head or the 3rd substrate affixed.

Compared to existing technology, the beneficial effects of the utility model are:

Pure color color chips is arranged in the colour disk being provided with C color chips or Y color chips or M color chips or colour temperature sheet by the utility model, then not only can realize C color chips, M color chips, Y color chips, colour mixture between colour temperature sheet, C color chips, M color chips, Y color chips, colour mixture between colour temperature sheet and pure color color chips, the mutual colour mixture between pure color color chips can also be realized, more enrich the variation of effect of shadow color, simultaneously, the mode of colour disk rotation is adopted to switch colour mixture, can realize simple, go out light color fast to switch, compare with the additive colo(u)r system of traditional structure, the rectilinear motion decreasing dyeing color chips needs to arrange the complicated structure such as guide rod and guide pin bushing, prevent stuck and improve stability, decrease one or more independently pure color colour disk simultaneously, greatly to save space, illuminating lamp is made to reduce volume, in addition, C color chips, M color chips, Y color chips and colour temperature sheet are gradient color, can realize the fade effect of colour mixture.

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.

Accompanying drawing explanation

Fig. 1 is the structural representation of the new dyeing device of the utility model illuminating lamp;

Fig. 2 is the explosive view of Fig. 1;

Fig. 3 is the structural representation that the utility model colour disk coordinates with support installing;

Fig. 4 is the explosive view of Fig. 3.

In figure: 1, dye color chips; 11, C color chips; 12, M color chips; 13, Y color chips; 14 colour temperature sheets; 15, pure color color chips; 2, colour disk; 21, look lattice; 22, hollow hole; 3, support; 301, the first loophole; 31, first substrate; 32, second substrate; 33, the first support bar; 34, bore a hole; 35, fixed axis; 4, driving mechanism; 41, motor; 42, driving gear; 43, driven gear; 5, folded position is hidden; 6, the 3rd substrate; 7, light source fixed head; 8, the second support bar; 9, the second loophole; 10, the 3rd support bar.

Detailed description of the invention

The new dyeing device of a kind of illuminating lamp as shown in figures 1-4, comprising: dyeing color chips 1, at least three colour disks 2, support 3 and driving mechanisms 4, wherein:

Dyeing color chips 1, comprises the pure color color chips 15 that the C color chips 11 of at least one color gradient, the M color chips 12 of at least one color gradient, the Y color chips 13 of at least one color gradient, the colour temperature sheet 14 of at least one colour temperature gradual change and at least four colors are different; Dyeing color chips 1 has the effect bright dipping of light source being carried out dyeing optical filtering.Wherein, C (Cyan) color chips 11 is cyan color chips, C is also called sky blue or azure, M (Magenta) color chips 12 is magenta color chips, M is also called carmetta, Y (Yellow) color chips 13 is yellow color chips, and above C color chips 11, M color chips 12 and Y color chips 13 have corresponding color from shallow to deep or by being deep to shallow fade effect; Colour temperature sheet 14 adjustable go out light color temperature, be commonly referred to as CTO colour temperature sheet or K color chips (K: colour temperature unit), it has colour temperature fade effect from small to large or from large to small.Pure color color chips 15 is the dyeing color chips 1 of random color.

At least four colour disks 2, each colour disk 2 is provided with multiple look lattice 21 of rounded distribution, and in the look lattice 21 of each colour disk 2, one_to_one corresponding arranges dyeing color chips 1, and look lattice 21 are for holding spacing dyeing color chips 1; The color chips 1 that dyes in each colour disk 2 is different; Arrange the one in C color chips 11, M color chips 12, Y color chips 13 and colour temperature sheet 14 in one of them look lattice 21 of each colour disk 2, other look lattice pure color color chips 15, namely C color chips 11, M color chips 12, Y color chips 13, colour temperature sheet 14 4 are located at each colour disk 2 one by one respectively; Each pure color color chips 15 can be located at each color chips 2 one by one respectively, or each pure color color chips 15 can be located at each colour disk 2 between two, or the pure color color chips 15 of different colours is all located at each colour disk 2; The shape size of look lattice 21 can be arranged as required, and Corresponding matching respectively dyes the shape size of color chips 1, such as, can be set to the round pie as shown in Figure 4 of this example.Look lattice 21, the matching relationship of dyeing color chips 1, position relationship are preferably set to: assorted lattice 21 abut one another, and each dyeing color chips 1 is full of assorted lattice 21, with the adjacent dyeing color chips 1 of seamless transitions, color is switched and is able to smooth transition.

Support 3, be provided with the first loophole 301, the support 3 of these the first loophole 301 both sides is fixed with two spaced fixed axis 35, each colour disk 2 is articulated in two fixed axis 35 respectively, and each colour disk 2 is spaced in the direction, axis of arbitrary fixed axis 35, colour disk 2 part be positioned on different fixed axis 35 hides folded, and formed and supply illuminating lamp bright dipping to pass and fold position 5 to the screening of bright dipping dyeing, it is relative with the first loophole 301 that position 5 is folded in this screening; The bright dipping of illuminating lamp light source is through the first loophole 301 again through hiding folded position 5, and hide folded position 5 and be the position of bright dipping being carried out to colour mixture, dyeing, colour disk 2 folds position 5 colour mixture in this screening, and the bright dipping of folding position 5 through this screening will be colored.The setting of being separated by of each colour disk 2, is beneficial to the smooth and easy independent rotation of each colour disk 2, prevents stuck.

Driving mechanism 4, drives with each colour disk 2 one_to_one corresponding and is connected, for drive one by one each colour disk 2 independently with each self-corresponding fixed axis 35 for central axis.Each colour disk 2 all can independently rotate, then carry out any switching laws as required and rotate each colour disk 2, makes screening fold position 5 and produces colour mixture required arbitrarily, be beneficial to and enrich light color, use light color variation.; C color chips 11, M color chips 12, Y color chips 13, colour temperature sheet 14 and the setting of pure color color chips 15 in colour disk 2 can be arranged according to the needs of bright dipping color adaptation, as long as the pure color color chips 15 of the one all had in each colour disk 2 in C color chips 11, M color chips 12, Y color chips 13, colour temperature sheet 14 and wherein a kind of color, can realize above-mentioned go out light color variation, there is the object of enough small sizes.

Being arranged on by pure color color chips 15 is provided with in the colour disk 2 of C color chips 11 or Y color chips 13 or M color chips 12, then not only can realize the colour mixture between C color chips 11, M color chips 12, Y color chips 13, colour temperature sheet 14, C color chips 11, M color chips 12, Y color chips 13, colour mixture between colour temperature sheet 14 and pure color color chips 15, the mutual colour mixture between pure color color chips 15 can also be realized, more enrich the variation of effect of shadow color, simultaneously, adopt the mode of colour disk 2 rotation to switch colour mixture, can realize simply, go out light color switching fast.

As shown in Figure 4, the area of the pure color color chips 15 of this example is less than the area of C color chips 11 or M color chips 12 or Y color chips 13 or colour temperature sheet 14, then a C color chips 11 or M color chips 12 or Y color chips 13 or colour temperature sheet 14 can carry out colour mixture with the pure color color chips 15 of more than two or two simultaneously, are more conducive to the quick switching of colour mixture.

As shown in Figure 4, for colour mixture is machine-processed flexibly further, to improve the variation of colour mixture further, colour disk 2 is also provided with the transparent region directly passed for bright dipping, adjacent look lattice 21 separate by this transparent region; Illuminating lamp bright dipping will not be colored through this transparent region.And this transparent region can directly adopt the lamellar body of clear glass or other transparent, translucent material to make, and this example preferably direct hollow hole 22 that arranges on colour disk 2, this hollow hole 22 forms described transparent region, to ensure the maximum transmission rate of transparent region.

As the utility model preferred embodiment, as shown in figs. 34, for each colour disk 2 of stable support, support 3 comprises first substrate 31, second substrate 32 and multiple first support bar 33, described first loophole 301 is opened in first substrate 31 and second substrate 32, and first substrate 31 and second substrate 32 are affixed and form accommodation cavity for holding each colour disk 2 by the first support bar 33; One end and the first substrate 31 of fixed axis 35 are affixed, and the other end and the second substrate 32 of fixed axis 35 are affixed.

As the utility model preferred embodiment, for one_to_one corresponding drives each colour disk 2 to rotate, driving mechanism 4 comprises the motor 41 identical with the quantity of colour disk 2, driving gear 42 and driven gear 43, driving gear 42 one_to_one corresponding is fixed on the output shaft of each motor 41, driven gear 43 one_to_one corresponding is fixed on the middle part of colour disk 2, and driving gear 42 engages with driven gear 43.The power that the kind of drive of driving gear 42 and driven gear 43 is beneficial to the output of motor 41 arrives colour disk 2 fast, to reduce transmission mechanism, reduces structural complexity, reduces volume.

As the utility model preferred embodiment, colour disk 2 can be at least three, and it is four that this example preferably arranges colour disk 2, and with on the guarantee diversified basis of colour mixture color, make volume enough little, four colour disks 2 are articulated in two fixed axis 35 between two respectively; Described driven gear 43 is fixed on the lateral surface of each colour disk 2; Described first substrate 31 and second substrate 32 have the perforation 34 of passing for driving gear 42, and 34 pairs of driving gears 42 of boring a hole are formed dodges, and prevents driving gear 42 to be stuck.

Each colour disk 2, dyeing color chips 1, driving mechanism 4 and support 3 can comprising modules, are installed on the exit positions of illuminating lamp, for the illuminating lamp with multiple exit positions, then this module correspondence can be arranged on multiple exit positions.

As the utility model preferred embodiment, for stable fixing above-mentioned module, as shown in Fig. 1 ~ 2, the new dyeing device of this illuminating lamp also comprises the 3rd substrate 6, light source fixed head 7, multiple second support bar 8 and multiple 3rd support bar 10, light source fixed head 7 is for priming illumination lamp source, 3rd substrate 6 and light source fixed head 7 offer the second loophole 9 respectively, this second loophole 9 is relative with the first loophole 301 position, wherein two motors 41 are fixed on the 3rd substrate 6, and another two motors 41 are fixed on light source fixed head 7; It is affixed that 3rd substrate 6 and light source fixed head 7 pass through the second support bar 8 interval, and support 3 is affixed with light source fixed head 7 through the 3rd support bar 10, also can be affixed with the 3rd substrate 6.The bright dipping of light source will pass the second loophole 9, first loophole 301 successively, hide the rear injection of folded position 5, first loophole 301, second loophole 9.The corresponding circuit board that can arrange on the 3rd substrate 6, light source fixed head 7 for drive motors 41 start and stop, rotating, speed change work, with auto-changeover control each colour disk 2 colour mixture.

Above-mentioned embodiment is only preferred embodiment of the present utility model; can not limit the scope of the utility model protection with this, change and the replacement of any unsubstantiality that those skilled in the art does on basis of the present utility model all belong to the utility model scope required for protection.

Claims (8)

1. a new dyeing device for illuminating lamp, is characterized in that, comprising:

Dyeing color chips, comprises the pure color color chips that the C color chips of at least one color gradient, the M color chips of at least one color gradient, the Y color chips of at least one color gradient, the colour temperature sheet of at least one colour temperature gradual change and at least four colors are different;

At least four colour disks, each colour disk is provided with multiple look lattice of rounded distribution, and the Se Genei one_to_one corresponding of each colour disk arranges dyeing color chips, and the color chips that dyes in each colour disk is different; One of them look lattice of each colour disk arrange the one in C color chips, M color chips, Y color chips and colour temperature sheet, and other look lattice arrange pure color color chips;

Support, be provided with the first loophole, the support of these the first loophole both sides is fixed with two spaced fixed axis, each colour disk is articulated in two fixed axis respectively, and the direction, axis of each colour disk fixed axis in office is spaced, the colour disk part be positioned on different fixed axis hides folded, and formed and supply illuminating lamp bright dipping to pass and fold position to the screening of bright dipping dyeing, it is relative with the first loophole that position is folded in this screening;

Driving mechanism, drives with each colour disk one_to_one corresponding and is connected, for drive one by one each colour disk independently with each self-corresponding fixed axis for central axis.

2. the new dyeing device of illuminating lamp according to claim 1, is characterized in that, the area of described pure color color chips is less than the area of C color chips or M color chips or Y color chips or colour temperature sheet.

3. the new dyeing device of illuminating lamp according to claim 1, is characterized in that, described colour disk is also provided with the transparent region directly passed for bright dipping, adjacent look lattice separate by this transparent region.

4. the new dyeing device of illuminating lamp according to claim 3, is characterized in that, described colour disk is provided with hollow hole, and this hollow hole forms described transparent region.

5. the new dyeing device of illuminating lamp according to claim 1, it is characterized in that, described support comprises first substrate, second substrate and multiple first support bar, described first loophole is opened in first substrate and second substrate, and first substrate and second substrate are affixed and form accommodation cavity for holding each colour disk by the first support bar; One end and the first substrate of fixed axis are affixed, and the other end and the second substrate of fixed axis are affixed.

6. the new dyeing device of illuminating lamp according to claim 5, it is characterized in that, described driving mechanism comprises the motor identical with the quantity of colour disk, driving gear and driven gear, driving gear one_to_one corresponding is fixed on the output shaft of each motor, driven gear one_to_one corresponding is fixed on the middle part of colour disk, and driving gear engages with driven gear.

7. the new dyeing device of illuminating lamp according to claim 6, is characterized in that, described colour disk is four, is articulated in two fixed axis respectively between two; Described driven gear is fixed on the lateral surface of each colour disk; Described first substrate and second substrate have the perforation of passing for driving gear.

8. the new dyeing device of illuminating lamp according to claim 7, it is characterized in that, the new dyeing device of described illuminating lamp also comprises the 3rd substrate, light source fixed head, multiple second support bar and multiple 3rd support bar, 3rd substrate and light source fixed head offer the second loophole respectively, this second loophole is relative with the first loophole position, wherein two motors are fixed on the 3rd substrate, and another two motors are fixed on light source fixed head; It is affixed that 3rd substrate and light source fixed head pass through the second support bar interval; Support through the 3rd support bar and light source fixed head or the 3rd substrate affixed.