CN220061549U - CMY color mixing device - Google Patents

Abstract

The utility model relates to a CMY color mixing device, which comprises a bottom plate, a first motor, a second motor, a third motor, a rotating shaft, a first rotating frame, a second rotating frame, a third rotating frame, a C color piece, an M color piece, a Y color piece and a first light hole, wherein the first motor, the second motor, the third motor, the rotating shaft, the first rotating frame and the third rotating frame are arranged on the bottom plate at intervals, the first rotating frame, the second rotating frame and the third rotating frame are respectively provided with a light passing hole, the C color piece is detachably arranged in the light passing hole of the second rotating frame, the M color piece is detachably arranged in the light passing hole of the third rotating frame, the Y color piece is detachably arranged in the light passing hole of the first rotating frame, and the three motors respectively drive corresponding three color pieces to independently rotate relative to the bottom plate. The utility model meets the complex color mixing requirement, has good stability and effectively reduces the volume of the whole device.

Description

CMY color mixing device

Technical Field

The utility model relates to the technical field of CMY color mixing, in particular to a CMY color mixing device.

Background

In the existing CMY color mixing system, CMY color patches are generally movably mounted on a guide rod and can move to a specific position along the axis of the guide rod to achieve the purpose of interfering an optical path, so that light irradiates the CMY color patches to achieve the color mixing effect. The guide rod is generally fixed by a fixing seat and a fixing plate with a through hole for the guide rod to pass through, on one hand, the moving smoothness of the CMY color chips on the guide rod is not high enough, so that the gradual linearity of the CMY color chips is poor, and the linearity of the CMY color chips is not good enough. On the other hand, the installation is complex, and jitter can occur in the movement process, after the two-by-two color patches on the CMY color patches are overlapped, the combined structure is too complicated, and the occupied space is large, so that the whole CMY color mixing system is large in size.

Disclosure of Invention

In view of the shortcomings of the prior art, it is an object of the present utility model to provide a CMY color mixing device that can solve the problems described in the background art.

The technical scheme for realizing the purpose of the utility model is as follows: a CMY color mixing device comprises a bottom plate, a first motor, a second motor, a third motor, a rotating shaft, a first rotating frame, a second rotating frame, a third rotating frame, a C color plate, an M color plate, a Y color plate and a first light hole which are arranged on the bottom plate and are arranged on one side of the rotating shaft,

the second rotating frame, the first rotating member and the third rotating frame are arranged on the rotating shaft at intervals, the first rotating frame, the second rotating frame and the third rotating frame are respectively provided with a light passing hole, the C color plate is detachably arranged in the light passing hole of the second rotating frame, the M color plate is detachably arranged in the light passing hole of the third rotating frame, the Y color plate is detachably arranged in the light passing hole of the first rotating frame,

the first motor is connected with the third rotating frame to drive the M color chips on the third rotating frame to rotate relative to the bottom plate,

the second motor is connected with the first rotating frame to drive the Y color piece on the first rotating frame to rotate relative to the bottom plate,

the third motor is connected with the second rotating frame to drive the C color plate on the second rotating frame to rotate relative to the bottom plate,

when the C color plate, the Y color plate and the M color plate rotate to a certain position, any two of the C color plate, the Y color plate and the M color plate are overlapped, and the light passing through the first light holes can irradiate on the C color plate, the Y color plate and the M color plate so as to achieve the color mixing effect.

Further, the first motor, the second motor and the third motor are fixedly arranged at the same end of the bottom plate and are arranged at intervals.

Further, the rotating shaft is vertically installed at an end of the bottom plate remote from the third motor.

Further, still include bearing housing and bearing, the bearing housing is established on the rotation axis, and the bearing housing is installed on the bearing, and the bearing housing passes through the opening baffle ring cover and establishes and block on the rotation axis to make the bearing housing can rotate along with the outer lane of bearing, second swivel mount, first swivel mount and third swivel mount are installed on the rotation axis from last interval formation in proper order down.

Further, the rotating shaft is sequentially provided with a first step, a second step and a third step which are spaced from top to bottom, the second rotating frame is sleeved on the first step, the first rotating frame is sleeved on the second step, and the third rotating frame is sleeved on the third step.

Further, the output end of the first motor passes through the bottom plate and is connected with the first gear, the first gear is sleeved on the output end of the first motor, one end of the first belt is wound on the first gear, and the other end of the first belt is wound on the third rotating frame, so that the first motor drives the rotating frame to rotate relative to the rotating shaft.

Further, the output end of the second motor passes through the bottom plate and is connected with the second gear, the second gear is sleeved on the output end of the second motor, one end of the second belt is wound on the second gear, the other end of the second belt is wound on the rotary table, and the rotary table is sleeved on the rotary shaft and is connected with the first rotary frame, so that the second motor can drive the first rotary frame to rotate relative to the rotary shaft.

Further, the output end of the third motor penetrates through the bottom plate and then rotates with the second rotating frame so as to drive the second rotating frame to rotate relative to the rotating shaft.

Further, still include support and hall sensor, hall sensor installs on the support, support fixed mounting is on the bottom plate to be located one side of first swivel mount, second swivel mount and third swivel mount, install magnet on first swivel mount, second swivel mount and the third swivel mount, hall sensor is used for according to the result of detecting whether magnet on the swivel mount reaches the position of predetermineeing respectively corresponding control first motor, second motor and third motor and opens and close.

Further, the novel fruit tree structure further comprises a pattern effect fruit tray which is disc-shaped, the pattern effect fruit tray is sleeved on the rotating shaft and located below the third rotating frame, and the pattern effect fruit tray is used for forming an effect pattern under the irradiation of light passing through the first light holes.

The beneficial effects of the utility model are as follows: according to the utility model, each color piece independently rotates through the corresponding rotating frame, so that the purpose of color mixing of every two combinations is achieved, the complex color mixing requirement is met, and the rotating shaft can rotate stably and has good stability. In addition, three swivel mount is in vertical direction interval range upon range of, reduces occupation space, has effectively reduced the volume of whole device.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic exploded view of the present utility model;

fig. 3 is a schematic cross-sectional view of the relevant components after assembly.

In the figure, a 1-rotating shaft, a 2-C color chip, a 3-first belt, a 4-bracket, a 5-first gear, a 6-first motor, a 7-first rotating frame, an 8-second rotating frame, a 9-pattern effect fruit tray, a 10-third rotating frame, an 11-first light hole, a 12-bottom plate, a 13-second motor, a 14-second gear, a 15-Hall sensor, a 16-second belt, a 17-third motor, an 18-Y color chip, a 19-M color chip, a 20-opening retainer ring, a 21-bearing and a 22-bearing sleeve.

Detailed Description

The utility model is further described with reference to the accompanying drawings and detailed description below:

as shown in fig. 1 to 3, a CMY color mixing apparatus includes a base plate 12, and a first motor 6, a second motor 13, a third motor 17, a bearing 21, a rotation shaft 1, a first rotary frame 7, a second rotary frame 8, a third rotary frame 10, a C color patch 2, an M color patch 19, a Y color patch 18, and a first light transmitting hole 11 mounted on the base plate 12. The first light holes 11 are dug on the bottom plate 12 and are positioned on one side of the rotating shaft 1, the first motor 6, the second motor 13 and the third motor 17 are fixedly installed at the same end of the bottom plate 12 and are arranged at intervals, and the rotating shaft 1 is vertically installed at one end of the bottom plate 12 far away from the third motor 17. The bearing sleeve 22 is arranged on the rotating shaft 1, the bearing 21 is also provided with the bearing sleeve 22, and the bearing sleeve 22 is sleeved on the rotating shaft 1 through the split washer 20 and is clamped on the rotating shaft 1, so that the bearing sleeve 22 can rotate along with the outer ring of the bearing 21.

The second rotating frame 8, the first rotating member and the third rotating frame 10 are sequentially arranged on the rotating shaft 1 in a layering mode at intervals from top to bottom, the rotating shaft 1 is sequentially provided with a first step, a second step and a third step at intervals from top to bottom, the second rotating frame 8 is sleeved on the first step, the first rotating frame 7 is sleeved on the second step, and the third rotating frame 10 is sleeved on the third step. The first rotating frame 7, the second rotating frame 8 and the third rotating frame 10 are respectively provided with a light passing hole in a digging manner, and the C color chip 2 is detachably arranged in the light passing hole of the second rotating frame 8, for example, in a buckling or embedding manner. Similarly, the M color patch 19 is detachably mounted in the light passing hole of the third rotary frame 10, the Y color patch 18 is detachably mounted in the light passing hole of the first rotary frame 7, and the two color patches can be mounted in the respective light passing holes in a snap-fit or embedding manner.

The output end of the first motor 6 passes through the bottom plate 12 and is connected with the first gear 5, the first gear 5 is sleeved on the output end of the first motor 6, one end of the first belt 3 is wound on the first gear 5, and the other end of the first belt is wound on the third rotating frame 10, so that the first motor 6 drives the rotating frame to rotate relative to the rotating shaft 1. The output end of the second motor 13 passes through the bottom plate 12 and is connected with the second gear 14, the second gear 14 is sleeved on the output end of the second motor 13, one end of the second belt 16 is wound on the second gear 14, the other end of the second belt is wound on a rotary table (not shown in the figure), and the rotary table is sleeved on the rotary shaft 1 and is connected with the first rotary frame 7, so that the second motor 13 can drive the first rotary frame 7 to rotate relative to the rotary shaft 1. The output end of the third motor 17 passes through the bottom plate 12 and then rotates with the second rotating frame 8 to drive the second rotating frame 8 to rotate relative to the rotating shaft 1.

The three rotating frames can be controlled to rotate independently through the three motors respectively, so that the C color plates 2, the M color plates 19 and the Y color plates 18 corresponding to the three rotating frames are driven to rotate, and any two color plates are overlapped together in the vertical direction, so that the color mixing effect is achieved.

When the C color plate 2, the M color plate 19 and the Y color plate 18 rotate to a certain position, the first light transmitting holes 11 on the bottom plate 12 just correspond to the C color plate 2, the M color plate 19 and the Y color plate 18, so that the light passing through the first light transmitting holes 11 can irradiate on the color plates.

In an alternative embodiment, the device further comprises a bracket 4 and a hall sensor 15, wherein the hall sensor 15 is mounted on the bracket 4, and the bracket 4 is fixedly mounted on the bottom plate 12 and is positioned at one side of the first rotating frame 7, the second rotating frame 8 and the third rotating frame 10. The first rotating frame 7, the second rotating frame 8 and the third rotating frame 10 are provided with magnets, and the Hall sensor 15 is used for respectively controlling the on-off of the first motor 6, the second motor 13 and the third motor 17 according to the result of detecting whether the magnets on the rotating frames reach the preset positions.

In an alternative embodiment, the device further comprises a pattern effect fruit tray 9, the pattern effect fruit tray 9 is disc-shaped, the pattern effect fruit tray 9 is sleeved on the rotating shaft 1 and is located below the third rotating frame 10, and the pattern effect fruit tray 9 is used for forming an effect pattern under the irradiation of light passing through the first light holes 11.

In an alternative embodiment, the first, second and third rotating racks 7, 8 and 10 are all circular.

According to the utility model, each color piece independently rotates through the corresponding rotating frame, so that the purpose of color mixing of every two combinations is achieved, the complex color mixing requirement is met, and the rotating shaft 1 can rotate stably and has good stability. In addition, three swivel mount is in vertical direction interval range upon range of, reduces occupation space, has effectively reduced the volume of whole device.

The embodiment disclosed in the present specification is merely an illustration of one-sided features of the present utility model, and the protection scope of the present utility model is not limited to this embodiment, and any other functionally equivalent embodiment falls within the protection scope of the present utility model. Various other corresponding changes and modifications will occur to those skilled in the art from the foregoing description and the accompanying drawings, and all such changes and modifications are intended to be included within the scope of the present utility model as defined in the appended claims.

Claims (10)

1. A CMY color mixing device is characterized by comprising a bottom plate, a first motor, a second motor, a third motor, a rotating shaft, a first rotating frame, a second rotating frame, a third rotating frame, a C color plate, an M color plate, a Y color plate and a first light hole which are arranged on the bottom plate in a digging way and are positioned on one side of the rotating shaft,

the second rotating frame, the first rotating member and the third rotating frame are arranged on the rotating shaft at intervals, the first rotating frame, the second rotating frame and the third rotating frame are respectively provided with a light passing hole, the C color plate is detachably arranged in the light passing hole of the second rotating frame, the M color plate is detachably arranged in the light passing hole of the third rotating frame, the Y color plate is detachably arranged in the light passing hole of the first rotating frame,

the first motor is connected with the third rotating frame to drive the M color chips on the third rotating frame to rotate relative to the bottom plate,

the second motor is connected with the first rotating frame to drive the Y color piece on the first rotating frame to rotate relative to the bottom plate,

the third motor is connected with the second rotating frame to drive the C color plate on the second rotating frame to rotate relative to the bottom plate,

when the C color plate, the Y color plate and the M color plate rotate to a certain position, any two of the C color plate, the Y color plate and the M color plate are overlapped, and the light passing through the first light holes can irradiate on the C color plate, the Y color plate and the M color plate so as to achieve the color mixing effect.

2. The CMY color mixing device of claim 1, wherein the first motor, the second motor, and the third motor are fixedly mounted at the same end of the base plate and are spaced apart.

3. The CMY color mixing device of claim 2 wherein the rotation axis is vertically mounted at an end of the base plate remote from the third motor.

4. The CMY color mixing device of claim 3, further comprising a bearing housing and a bearing, the bearing housing being mounted on the rotating shaft, the bearing housing being mounted on the bearing and being retained on the rotating shaft by an open-ended retainer such that the bearing housing is rotatable with an outer race of the bearing, the second rotating frame, the first rotating member, and the third rotating frame being mounted on the rotating shaft in a stacked manner at intervals in sequence from top to bottom.

5. The CMY color mixing device of claim 4, wherein the rotation shaft is sequentially provided with a first step, a second step and a third step from top to bottom, the second rotation frame is sleeved on the first step, the first rotation frame is sleeved on the second step, and the third rotation frame is sleeved on the third step.

6. The CMY color mixing device of claim 5, wherein the output end of the first motor is connected to the first gear through the bottom plate, the first gear is sleeved on the output end of the first motor, one end of the first belt is wound on the first gear, and the other end is wound on the third rotating frame, so that the first motor drives the rotating frame to rotate relative to the rotating shaft.

7. The CMY color mixing device of claim 6, wherein the output end of the second motor is connected to the second gear through the bottom plate, the second gear is sleeved on the output end of the second motor, one end of the second belt is wound on the second gear, the other end is wound on the turntable, and the turntable is sleeved on the rotating shaft and connected with the first rotating frame, so that the second motor can drive the first rotating frame to rotate relative to the rotating shaft.

8. The CMY color mixing device of claim 7, wherein the output of the third motor passes through the base plate and rotates with the second rotating frame to drive the second rotating frame to rotate relative to the rotation axis.

9. The CMY color mixing device of claim 8, further comprising a bracket and a hall sensor, wherein the hall sensor is mounted on the bracket, the bracket is fixedly mounted on the base plate and is located at one side of the first rotating frame, the second rotating frame and the third rotating frame, the first rotating frame, the second rotating frame and the third rotating frame are provided with magnets, and the hall sensor is used for respectively controlling the on-off of the first motor, the second motor and the third motor according to the result of detecting whether the magnets on the rotating frames reach the preset positions.

10. The CMY color mixing device of claim 9, further comprising a patterned fruit tray, wherein the patterned fruit tray is disc-shaped, the patterned fruit tray is sleeved on the rotating shaft and is positioned below the third rotating frame, and the patterned fruit tray is used for forming an effect pattern under the irradiation of the light passing through the first light holes.