Disclosure of Invention
The invention provides a color mixing box convenient for selecting colors.
The technical scheme adopted by the invention for solving the technical problems is as follows: the automatic discharging toning box comprises a storage box, a storage disc, a storage folding plate and a rotating column, wherein the storage folding plate is arranged at one end of the storage box, the storage disc is rotatably arranged in the storage box and comprises a plurality of storage sub discs which can move relative to the storage box, the upper end surfaces of the storage sub discs are attached to the top wall of an inner cavity of the storage box, the rotating column penetrates through the storage folding plate and is connected with the storage disc, a rotating tooth groove is formed in the rotating column, a rotating motor and a driving gear connected with an output shaft of the rotating motor are installed in the storage box, the driving gear is meshed with the rotating tooth groove, a pushing plate is slidably arranged on the storage folding plate, a control groove is formed in the pushing plate, and a control block matched with the control groove is arranged on the storage sub discs, still install push motor in the storage box and locate the push gear of push motor's output shaft, push gear with push plate meshes mutually, it has with to open on the lateral wall of storage box the storage logical groove that corresponds with the storage minute dish, rotate the storage dish to when arbitrary one in the storage minute dish with the storage logical groove is counterpointed, this storage minute dish can by the storage logical groove extends to the outside of storage box.
Furthermore, the rotating column comprises a column body inserted on the storage folded plate and a column head fixed on the column body, and the rotating tooth socket is arranged on the column body.
Furthermore, a pushing tooth groove is formed in the end portion, far away from the control groove, of the pushing plate, and the pushing gear is meshed with the pushing tooth groove.
Further, install a plurality of reference columns on the cylinder, the reference column sets up the top of rotating the tooth's socket, fixed mounting has the response post on the inner chamber diapire of storage box, fixed mounting have on the response post with the infrared sensor that the reference column corresponds.
Furthermore, the storage folded plate is provided with a limiting groove and a pushing groove, the limiting groove and the pushing groove correspond to the control block, the pushing groove points to the collecting through groove, the pushing plate is slidably arranged in the pushing groove, and the control block is contained in the limiting groove.
Further, the rotary switch and the push switch are unified to be a single-pole double-throw switch, one side of the single-pole double-throw switch selects the end to be electrically connected with the rotary motor and the infrared sensor, and the other side selects the end to be electrically connected with the push motor.
Furthermore, a plurality of spline blocks are fixedly mounted on the column cap, the spline blocks are arranged in a manner of pointing to the control block, and spline grooves corresponding to the spline blocks are formed in the storage sub-disc.
Further, the infrared sensor is GP2Y0A02YK 0F.
The invention has the advantages that the rotating switch and the pushing switch are arranged on the storage box, the rotating process of the rotating motor is controlled by the rotating switch and the infrared sensor, the stepping rotation of the storage sub-discs is realized by the rotation of the driving gear, the storage sub-discs corresponding to the color numbers can be selected in the storage through grooves, the running state of the pushing motor is controlled by the pushing switch, the pushing gear is pushed to drive the pushing plate to move, the pushing plate pushes the storage sub-discs to slide on the storage folding plates, the storage sub-discs for storing the dyes are pushed out of or retracted into the storage box, the selection of the dyes is completed, and the mixing of the primary dyes during the selection is further avoided.
Drawings
The invention is further illustrated with reference to the following figures and examples.
FIG. 1 is a schematic perspective view of a preferred embodiment of the automatic dispensing palette of the present invention;
FIG. 2 is a schematic perspective view of the palette of FIG. 1 at another angle;
FIG. 3 is an exploded assembly view of the paint shaker box of FIG. 1;
FIG. 4 is a perspective cross-sectional view of the paint shaker box of FIG. 1 (with the basin omitted and only the storage box cut away);
FIG. 5 is a front view of the palette of FIG. 1;
FIG. 6 is a cross-sectional view taken along line A-A of FIG. 5;
FIG. 7 is a perspective view of the storage section of FIG. 1;
in the figure:
palette 100 basin 10 storage case 20
Isolating rib 110, color mixing groove 120, storage through groove 210
The storage flap 220 stores the rotating post 270 of the subpanel 261
The rotation hole 230 limits the slot 240 to push the slot 250
Control block 262 splice groove 263 splice bar 264
Spline groove 265 post 271 column 272
Spline block 273 positioning post 275 induction post 281
The push motor 285 pushes the plate 282 to drive the gear 283
The infrared sensor 284 pushes the gear 286 to rotate the motor 280
Control slot 287 stores disks 260
Detailed Description
Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention. On the contrary, the embodiments of the invention include all changes, modifications and equivalents coming within the spirit and terms of the claims appended hereto.
As shown in fig. 1 to 6, the present invention provides an automatic discharging palette 100, which includes a tub 10 and a storage box 20 fixedly installed at the bottom of the tub 10.
A plurality of isolation ribs 110 are arranged in the pot body 10, the isolation ribs 110 are perpendicular to the bottom wall in the pot body 10, the isolation ribs 110 are formed by protruding inwards from the inner wall of the pot body 10 along the radial direction of the pot body 10, and the isolation ribs 110 divide the inner cavity of the pot body 10 into a plurality of color mixing grooves 120.
The storage box 20 is substantially cylindrical with an open lower end, a storage through groove 210 is formed on a circumferential side wall of the storage box 20, a storage flap 220 is fixedly installed in the open lower end of the storage box 20, a storage tray 260 is arranged between the storage flap 220 and the storage box 20, the storage tray 260 includes a plurality of storage sub-trays 261, and a rotation column 270 is rotatably inserted into the storage flap 220.
The storage flap 220 is substantially a disc-shaped structure and is matched with the storage box 20, the outer circumferential surface of the storage flap 220 is attached to and fixedly connected with the inner wall of the storage box 20, the storage flap 220 is provided with a rotation hole 230, a limit groove 240 and a push groove 250, the rotation hole 230 is arranged at the center of the storage flap 220 along the axial direction of the storage flap 220, the limit groove 240 is arranged on the storage flap 220 around the rotation hole 230, and the limit groove 240 is an annular through groove. The storage flap 220 includes a horizontal plate and a vertical plate, the pushing groove 250 is disposed on the horizontal plate corresponding to the storage through groove 210, and specifically, the pushing groove 250 is opened on the horizontal plate along the radial direction of the storage flap 220 and is communicated with the limiting groove 240.
Storage minute dish 261 is fan-shaped disc, storage minute dish 261's peripheral lateral wall clearance fit is in the logical groove 210 of depositing of receipt, storage minute dish 261's top terminal surface laminates on the roof of storage box 20, storage minute dish 261's bottom terminal surface laminates on storage folded plate 220, understandably, storage minute dish 261 can take out from the logical groove 210 of depositing and put into, storage minute dish 261 is discoid around being rotated the hole 230 concatenation back, storage minute dish 261 inner chamber sets up towards basin body 10, storage minute dish 261 includes solitary sealed dish (not marked in the figure), the sealed dish is solid piece, all the other are hollow block, storage minute dish 261 can hold the dyestuff in storage box 20 internal seal. A control block 262 is fixedly arranged below the storage sub-plate 261, the control block 262 is rotatably inserted in the limiting groove 240 along the limiting groove 240, and meanwhile, the control block 262 can move along the pushing groove 250. When the sealed dish in the storage minute dish 261 corresponds with collect logical groove 210, the notch that logical groove 210 was collected to sealed dish shutoff, the sealed laminating of up end in storage box 20's inner chamber roof of sealed dish simultaneously, the laminating of the lower terminal surface of sealed dish is on storage folded plate 220. When the storage tray 260 is rotated until any one of the storage sub-trays 261 is aligned with the storage slot 210, the storage sub-tray 261 may extend from the storage slot 210 to the outside of the storage box 20.
Be equipped with the splice groove 263 and the splice strip 264 of bar shape on the both sides lateral wall of storage minute dish 261 respectively, storage minute dish 261 is opened on the inboard circular wall towards rotation hole 230 has spline groove 265, mutually support between splice groove 263 and the splice strip 264, the length of splice strip 264 is less than the trough length of splice groove 263, splice groove 263 link up the lateral wall setting of storage minute dish 261, splice strip 264 on the storage minute dish 261 alternates to in the splice groove 263 of adjacent storage minute dish 261, the storage minute dish 261 is discoid after splicing each other, through the relative joint between splice strip 264 and the splice groove 263, prevent that mutual dislocation from producing the gap between the storage minute dish 261.
The rotating column 270 includes a column body 271 rotatably inserted into the rotating hole 230 and a column head 272 fixed on the column body 271, the column body 271 penetrates through the rotating hole 230 and is disposed through the storage flap 220, the column head 272 is disposed between the storage flap 220 and the top wall of the storage box 20, the cross-sectional diameter of the column head 272 is larger than the aperture of the rotating hole 230, understandably, the rotating column 270 is clamped on the storage flap 220 through the column head 272, the column head 272 corresponds to the storage sub-disc 261, the column head 272 is substantially in a round cake shape, a plurality of spline blocks 273 mutually matched with the spline grooves 265 are mounted on the side surface of the column head 272, when the storage sub-disc 261 slides along the pushing groove 250, the spline blocks 273 are far away from or penetrate into the spline grooves 265, that is, the rotating column 270 drives the storage sub-disc 261, and the relative. A plurality of positioning columns 275 are fixedly inserted on the column 271, one positioning column 275 corresponds to the control block 262 on the storage sub-disc 261, and a rotating tooth socket (not shown) is arranged on the circumferential surface of the column 271 below the positioning column 275.
The bottom wall of the inner cavity of the storage box 20 is also fixedly provided with a rotating motor 280 corresponding to the rotating column 270, an induction column 281 corresponding to the positioning column 275, a pushing motor 285 and a pushing plate 282, the pushing plate 282 is slidably inserted in the pushing slot 250, and the pushing motor 285 is arranged on one side of the pushing plate 282.
A driving gear 283 is fixedly installed on an output shaft of the rotating motor 280, and the driving gear 283 and the rotating tooth grooves are engaged with each other. An infrared sensor 284 is fixedly mounted at the end part of the induction column 281, the infrared sensor 284 is a distance measuring sensor with the model number of GP2Y0A02YK0F, the induction end of the infrared sensor 284 corresponds to the positioning column 275, the infrared sensor 284 is electrically connected with the rotating motor 280, the infrared sensor 284 detects the distance between the induction column 281 and the positioning column 275, and when the detection value of the infrared sensor 284 reaches the minimum value, the rotating motor 280 is controlled to stop running. The pushing plate 282 is provided with a control slot 287, the pushing plate 282 can be covered on the control block 262 through the control slot 287, the pushing plate 282 is overlapped on the bottom wall of the inner cavity of the storage box 20, a pushing tooth slot (not shown) is carved on the pushing plate 282, a pushing gear 286 is fixedly installed on a rotating shaft of the pushing motor 285, and the pushing gear 286 and the pushing tooth slot are meshed with each other.
A rotary switch (not shown) and a push switch (not shown) are fixedly mounted on the sidewall of the inner cavity of the storage box 20, the rotary motor 280 is electrically connected to the rotary switch, the push motor 285 is electrically connected to the push switch, and the control portions of the rotary switch and the push switch extend to the outside through the inner wall of the storage box 20. The rotation motor 280 is started to operate through the rotation switch, and the infrared sensor 284 is matched to control the rotation of the middle rotating shaft of the rotation motor 280, so that the rotation of the driving gear 283 is controlled, and the rotation process of the rotating column 270 is controlled. The push switch controls the operation of the push motor 285, and when the push gear 286 rotates, the push plate 282 is driven to move in the push slot 250, and the control block 262 is driven to move in the push slot 250 through the control slot 287.
Preferably, in an embodiment not shown in the drawings, the rotary switch and the push switch may be unified into a single-pole double-throw switch, the single-pole double-throw switch is electrically connected to the power source constantly, one side selection terminal of the single-pole double-throw switch is electrically connected to the rotary motor 280 and the infrared sensor 284, and the other side selection terminal of the single-pole double-throw switch is electrically connected to the push motor 285.
When the above-mentioned color mixing box 100 is used, the dye for mixing colors is stored in the storage sub-disc 261, the side of the storage sub-disc 261 opposite to the storage through groove 210 is marked with the corresponding color number, before drawing, the rotary switch is closed, the rotary motor 280 drives the rotary column 270 to rotate through the driving gear 283, the storage sub-disc 261 is driven to rotate between the storage flap 220 and the storage box 20 through the matching of the spline block 273 and the spline groove 264, the control block 262 rotates in the limiting groove 230, the color number of the dye in the storage sub-disc 261 is judged through the storage through groove 210, when the dye is rotated to the required color, the rotary switch is opened, the push switch is closed, the push plate 282 shifts the control block 262 in the push groove 250 under the control of the push motor 285 and the push gear 286, the control block 262 carrying the storage sub-disc 261 moves out of the storage box 20 along the push groove 250, and the push groove 250 is only opened on the horizontal flap of the storage, under the block of the vertical flap of the storage flap 220, the storage sub-tray 261 partially extends to the outside of the storage box 20, the trial blending process of the dye is performed in the toning tank 120 of the tub body 10 after the dye is selected, and after the trial blending process is completed, the storage sub-tray 261 is pushed back into the storage box 20 through the storage through groove 210.
In the above-mentioned dyestuff access process, through the motion of rotary switch and push switch control storage minute disk 261 in storage box 20, the control stops that the motor 280 opened and stops promptly, thereby control the rotation of drive gear 283, the rotation of control rotation post 270, the rotation of final control storage minute disk 261 in storage box 20, realize selecting corresponding storage minute disk in the storage groove 210 of receiving, utilize push motor 285 and push gear 286 to order about the push plate 282 to promote the control block 262 and remove in push groove 250, thereby realize the automation of access dyestuff process, the mode of dyestuff is selected in automatic alternative, can effectually avoid the phenomenon that the dyestuff appears mixing.
In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.