Supplementary device that oils of chopping board
Technical Field
The invention belongs to the technical field of kitchen ware manufacturing, and particularly relates to an auxiliary oiling device for a chopping board.
Background
Chopping board is the chopping block, is the plank of putting on the desk so that prevent to destroy the desk when cutting the dish, and common chopping board on the market all is made with wooden or bamboo matter, in order to reduce the fracture of chopping board and fall the sediment, generally need scribble the one deck oil on the surface of wooden or bamboo chopping board, just so can stabilize the moisture content of chopping board self, reduce the phenomenon that the chopping board fracture falls the sediment.
At present, the surface of the chopping board is uniformly smeared with oil-stained wiping blocks firstly by manual operation, and then the chopping board is wiped with dry wiping blocks, so that the manual operation is complicated and uneven in smearing, the dry wiping blocks and the wet wiping blocks need to be replaced back and forth, and oiling is inconvenient.
Therefore, it is necessary to develop an auxiliary oiling device for a chopping board, which can apply oil uniformly and automatically, so as to solve the above problems.
Disclosure of Invention
In order to overcome the defects of complicated manual operation, uneven smearing, the need of changing dry and wet wiping blocks back and forth and inconvenience in oiling, the invention has the technical problems that: provides an auxiliary oiling device for a chopping board, which can be evenly and automatically applied.
The technical implementation scheme of the invention is as follows: a device that oils is assisted to chopping board, includes: the middle part of the bottom plate is provided with a placing frame; the bottom plate is provided with a translation mechanism at one side close to the placing frame; the smearing mechanism is provided with a smearing mechanism for applying oil to the chopping board.
Furthermore, it is particularly preferred that the translation mechanism comprises: the L-shaped sliding plate is arranged on one side, close to the placing frame, of the bottom plate; the L-shaped sliding plate is provided with a first sliding block in a sliding manner; an L-shaped sliding block, wherein an upper sliding groove is formed in one side, far away from the placing frame, of the L-shaped sliding plate, the L-shaped sliding block is matched with the upper sliding groove in a sliding mode, and the L-shaped sliding block is connected with the first sliding block; the long rack is arranged on the L-shaped sliding plate close to one side of the upper chute; the L-shaped sliding block is provided with a servo motor; the output shaft of the servo motor is provided with a first gear, and the first gear is meshed with the long rack.
Furthermore, it is particularly preferred that the application mechanism comprises: the first rotating shaft is in rotating clearance fit with the first sliding block, and penetrates through two sides of the first sliding block; the end, far away from the long rack, of the first rotating shaft is fixedly connected with the middle plate; the dry cotton block, the middle plate two side surfaces are symmetrically provided with a dry cotton block and a cylinder cotton block.
Further, it is particularly preferable to further include: the side sliding rail is arranged on one side, away from the L-shaped sliding plate, of the bottom plate; the second sliding block is in sliding fit with the side sliding rail; one side of the second sliding block, which is close to the middle plate, is fixedly connected with a telescopic shaft, and the other end of the telescopic shaft is fixedly connected with the middle plate; the side slide rail is fixedly connected with a connecting groove block, and the side wall of the connecting groove block is provided with a straight groove; the second rotating shaft is arranged in the straight groove of the connecting groove block in a clearance mode; the second rotating shaft is fixedly connected with the embedded block, and the embedded block is positioned in the connecting groove block; the third sliding block is arranged on one side, far away from the embedded block, of the connecting groove block in a sliding mode; the other end of the second rotating shaft is fixedly connected with the hexagonal body; the elastic pieces are symmetrically arranged on the third sliding block and are in contact fit with two parallel side surfaces of the hexagonal body; the middle part of the L-shaped sliding plate is provided with a short rack; the other end of the first rotating shaft is provided with a second gear which can be meshed with the short rack; the first sliding block is provided with a square sliding rod in a sliding manner; the ejector block is arranged at one end, located on the outer side of the first sliding block, of the square sliding rod, and the ejector block is in clearance fit with the second gear; the ejection column is arranged on the square slide bar, and is in sliding fit with the linear groove; the guide blocks are symmetrically and fixedly connected to the two ends of the L-shaped sliding plate and matched with the jacking columns.
Further, it is particularly preferable to further include: the elastic hollow ball is fixedly connected to one side, close to the second sliding block, of the telescopic shaft; the injection tube is arranged inside the cylindrical sponge block and communicated with the elastic hollow ball, a one-way valve is arranged in the injection tube, and small holes are uniformly distributed on the surface of the injection tube; the oil containing barrel is fixedly connected to the telescopic shaft and communicated with the elastic hollow ball through a connecting pipe, and a one-way valve is also arranged in the connecting pipe; the top ball is correspondingly arranged on the central axis of the elastic hollow ball along the side slide rail and is fixed on the bottom plate.
The invention has the beneficial effects that: the invention achieves the effects of even smearing and automatic oiling.
1. At start-up servo motor, servo motor drives translation mechanism and removes, and translation mechanism drives and paints the mechanism and removes, paints the mechanism and drives the drum cotton piece that is stained with oil and removes, when the chopping board that treats to oil, can with the upper surface contact of the chopping board that treats to paint oil to oil on the chopping board, reach the effect of automatic oiling.
2. The translation mechanism can drive the second gear to move and is meshed with the short rack, so that the second gear can rotate by one hundred eighty degrees, the smearing mechanism is driven to overturn by one hundred eighty degrees, the position replacement of the cylindrical cotton block stained with oil and the dry cotton block is completed, and the smearing mechanism cannot overturn in the resetting process of the smearing mechanism.
3. When the elastic hollow ball and the top ball are extruded, the oil in the elastic hollow ball flows into the cylindrical sponge block, so that the cylindrical sponge block is kept to be stained with quantitative oil.
Drawings
Fig. 1 is a schematic perspective view of the present invention.
Fig. 2 is a schematic perspective view of the translation mechanism of the present invention.
Fig. 3 is a schematic sectional three-dimensional structure of the coating mechanism of the present invention.
FIG. 4 is a schematic view of a first partial body structure according to the present invention.
FIG. 5 is a schematic view of a second partial body structure according to the present invention.
In the reference symbols: 1 … bottom plate, 2 … placing frame, 3 … translation mechanism, 31 … L-shaped sliding plate, 32 … first sliding block, 33 … upper sliding groove, 34 … L-shaped sliding block, 35 … long rack, 36 … servo motor, 37 … first gear, 4 … smearing mechanism, 41 … first rotating shaft, 42 … middle plate, 43 … dry cotton block, 44 … cylindrical cotton block, 5 … side sliding rail, 6 … second sliding block, 7 … telescopic shaft, 8 … connecting groove block, 9 … second rotating shaft, 10 … embedded block, 11 … third sliding block, 12 … hexagon body, 13 … elastic piece, 14 … short rack, 15 … second gear, 16 … square sliding bar, 17 … top block, 18 … top column, 19 … guide block, 20 … elastic block, 21 … injection pipe, 22 … containing oil barrel, … connecting pipe …, … one-way ball connecting pipe …, … ball … connecting pipe.
Detailed Description
The invention will be further described with reference to examples of embodiments shown in the drawings to which the invention is attached.
Example 1
An auxiliary oiling device for a chopping board is shown in figures 1-3 and comprises a bottom plate 1, a placing frame 2, a translation mechanism 3 and an applying mechanism 4, wherein the placing frame 2 is arranged at the center of the top of the bottom plate 1, the translation mechanism 3 is arranged on the right side of the top of the bottom plate 1, and the applying mechanism 4 for applying oil to the chopping board is arranged on the left side of the translation mechanism 3.
Translation mechanism 3 is including L shape slide 31, first slider 32, L shape slider 34, long rack 35, servo motor 36 and first gear 37, 1 top right side of bottom plate is provided with L shape slide 31, the last slip formula of L shape slide 31 is provided with first slider 32, L shape slide 31 top right side is opened has last spout 33, upward spout 33 sliding fit has L shape slider 34, L shape slider 34 is connected with first slider 32, L shape slide 31 top right side is provided with long rack 35, be provided with servo motor 36 on the L shape slider 34, be provided with first gear 37 on servo motor 36's the output shaft, first gear 37 and long rack 35 intermeshing.
The smearing mechanism 4 comprises a first rotating shaft 41, an intermediate plate 42, a dry cotton block 43 and a cylindrical cotton block 44, the first rotating shaft 41 is in rotating clearance fit with the first sliding block 32, the first rotating shaft 41 penetrates through two sides of the first sliding block 32, the intermediate plate 42 is fixedly connected to the left end of the first rotating shaft 41, and the dry cotton block 43 and the cylindrical cotton block 44 are symmetrically arranged on the upper side surface and the lower side surface of the intermediate plate 42.
When the equipment needs to be used, a worker places the chopping board to be oiled in the placing frame 2, and then controls the servo motor 36 to rotate clockwise, so as to drive the first gear 37 to rotate clockwise. Since the first gear 37 is engaged with the long rack 35, the first gear 37 rotates clockwise to drive the L-shaped sliding block 34 to slide backwards in the upper sliding slot 33, the L-shaped sliding block 34 slides backwards to drive the first sliding block 32 to slide backwards, and further drive the first rotating shaft 41 to move backwards, the first rotating shaft 41 moves backwards to drive the middle plate 42 to move backwards, so as to drive the dry cotton block 43 and the oil-soaked cylindrical cotton block 44 to move backwards, and since the cylindrical cotton block 44 is located below the dry cotton block 43 in the initial state. When the spreading means 4 is moved over the chopping board to be oiled, the dry cotton block 43 does not come into contact with the upper surface of the chopping board to be oiled, while the cylindrical cotton block 44, which is stained with oil, comes into contact with the upper surface of the chopping board to be oiled, so that a layer of oil is spread on the chopping board to be oiled. Continued rearward movement of the applicator mechanism 4 causes the oily cylindrical sponge block 44 to disengage from the upper surface of the chopping board to which a layer of oil has been applied. Then the staff overturns the smearing mechanism by 4 degrees, the staff controls the servo motor 36 to rotate reversely, so that the first sliding block 32 and all the components on the first sliding block are driven to move forwards for resetting, and in the resetting process, when the smearing mechanism 4 passes through the upper surface of the chopping board coated with a layer of oil, the dry cotton blocks 43 can be in contact with the upper surface of the chopping board coated with a layer of oil, so that redundant oil is smeared.
Example 2
On the basis of the embodiment 1, as shown in fig. 1-5, the device further comprises a side slide rail 5, a second slide block 6, a telescopic shaft 7, a connecting groove block 8, a second rotating shaft 9, an embedded block 10, a third slide block 11, a hexagonal body 12, an elastic sheet 13, a short rack 14, a second gear 15, a square slide bar 16, a top block 17, a top post 18 and a guide block 19, wherein the left side of the top of the bottom plate 1 is provided with the side slide rail 5, the second slide block 6 is in sliding fit with the side slide rail 5, the right side of the second slide block 6 is provided with the telescopic shaft 7, the right end of the telescopic shaft 7 is fixedly connected with the left side of the middle plate 42, the rear side of the side slide rail 5 is provided with the connecting groove block 8 in an embedded manner, the left side wall of the connecting groove block 8 is provided with a straight groove, a gap in the straight groove of the connecting groove block 8 is provided with the second rotating shaft 9, the right end of the second rotating shaft 9 is fixedly connected with the embedded block 10, the embedded block 10 is positioned in the connecting groove block 8, the left side of the connecting groove block 8 is provided with the third slide block 11, the left end of the second rotating shaft 9 is fixedly connected with a hexagonal body 12, an elastic sheet 13 is symmetrically arranged on a third sliding block 11, the elastic sheet 13 is in contact fit with two parallel side faces of the hexagonal body 12, a short rack 14 is arranged in the middle of an L-shaped sliding plate 31, a second gear 15 is arranged on the right end of a first rotating shaft 41, the second gear 15 can be meshed with the short rack 14, a square sliding rod 16 is arranged on the first sliding block 32 in a sliding mode, a top block 17 is arranged at the right end of the square sliding rod 16, the top block 17 is in clearance fit with the second gear 15, a straight groove is formed in the position of the first sliding block 32 on the upper side of the square sliding rod 16, a top column 18 is arranged on the square sliding rod 16, the top column 18 is in sliding fit with the straight groove, a guide block 19 is symmetrically and fixedly connected to the front end and the rear end of the L-shaped sliding plate 31, and the guide block 19 is matched with the top column 18.
The first rotating shaft 41 moves backwards to drive the smearing mechanism 4 to move backwards, and the telescopic shaft 7 moves backwards to drive the second sliding block 6 to slide backwards in the side sliding rail 5. The rearward movement of the first shaft 41 also causes the rearward movement of the second gear 15, and, as the application mechanism 4 continues to move rearward past the placement frame 2, at this point, the chopping board to be oiled is coated with a layer of oil, the second gear 15 moves backwards continuously and passes through the short rack 14 and is meshed with the short rack, so that the second gear 15 rotates clockwise, thereby driving the first rotating shaft 41 to rotate clockwise, the first rotating shaft 41 rotates clockwise to drive the smearing mechanism 4 to turn clockwise, thereby driving the second slide block 6 fixedly connected with the telescopic shaft 7 to move backwards while turning over in the embedded block 10, the embedded block 10 can drive the second rotating shaft 9 to move backwards while turning clockwise while turning over backwards, thereby drive hexagonal body 12 limit clockwise rotation limit backward movement, hexagonal body 12 clockwise rotation can make the intermittent type nature of flexure strip 13 loosen and press from both sides tightly, and hexagonal body 12 limit backward movement still can drive guide block 19 and move backward in the spout that connecting groove piece 8 surfaces was seted up. When the second slider 6 slides to the rearmost end of the side slide rail 5, the second slider 6 breaks away from the insert 10 at the moment, the insert 10 turns over one hundred eighty degrees and is in butt joint with the side slide rail 5 at the rear end, the first slider 32 on the opposite side of the side slide rail 5 also moves to the rearmost end of the L-shaped slide plate 31, the guide block 19 at the moment can enable the top column 18 to shift a small distance rightward, so that the square slide bar 16 is driven to slide out of the first slider 32 rightward, and the top block 17 shifts rightward. The rightward shift of the top block 17 will drive the second gear 15 to shift rightward and just deviate from the track of the short rack 14. Then the operator controls the servo motor 36 to rotate reversely to drive the first sliding block 32 and all the components thereon to move forwards for resetting, in the resetting process, because the second gear 15 deviates rightwards to form the track where the short rack 14 is located, when the second gear 15 moves forwards for resetting to pass through the short rack 14, the second gear 15 can not be meshed with the short rack 14, when the first sliding block 32 moves to the foremost end of the L-shaped sliding plate 31, the top column 18 is contacted with the guide block 19 fixed at the front end of the L-shaped sliding plate 31, the guide block 19 at the front end can reset the top column 18 to deviate leftwards, so that the square sliding rod 16 slides leftwards to enter the first sliding block 32, thereby driving the top block 17 to deviate leftwards, and further the second gear 15 returns to the track where the short rack 14 is located again, thus the smearing mechanism 4 moves forwards and backwards one round at the first sliding block 32 and then can only overturn once by one hundred eighty degrees, the device has a simple structure, the turning over of the automatic application mechanism 4 can be realized.
Still including the elastic hollow ball 20, the injection syringe 21, flourishing oil drum 22, connecting pipe 23, check valve 24 and kickball 25, elastic hollow ball 20 fixed connection is on the left of telescopic shaft 7, injection syringe 21 sets up inside and be linked together with elastic hollow ball 20 at drum cotton piece 44, injection syringe 21 surface is evenly opened there is the aperture, flourishing oil drum 22 sets up on telescopic shaft 7 and is linked together through connecting pipe 23 with elastic hollow ball 20, all be provided with check valve 24 on injection syringe 21 and the connecting pipe 23, correspond on the central axis of elastic hollow ball 20 along side slide rail 5 and be provided with kickball 25, kickball 25 fixed mounting is on bottom plate 1.
In order to keep the cylindrical sponge block 44 continuously stained with a certain amount of oil, when the smearing mechanism 4 drives the elastic hollow ball 20 to move forward to the foremost end, the elastic hollow ball 20 is squeezed by the top ball 25, so that the pressure in the elastic hollow ball 20 is reduced, the oil in the elastic hollow ball 20 flows through the check valve 24 and enters the cylindrical sponge block 44 through the small hole formed in the injection tube 21, when the pressure in the elastic hollow ball 20 is reduced, the oil in the oil containing barrel 22 flows through the connecting tube 23 and enters the elastic hollow ball 20 through the check valve 24, and thus a certain amount of oil is kept in the elastic hollow ball 20.
The above-mentioned embodiments are merely preferred embodiments of the present invention, which are not intended to limit the scope of the present invention, and therefore, all equivalent changes made by the contents of the claims of the present invention should be included in the claims of the present invention.