Disclosure of Invention
The invention aims to provide equipment for preparing the prepared food with modeling patterns, wherein the exterior of the prepared food prepared by the equipment forms a wave pattern shape, so that the appearance innovation of a minced fillet product is improved, and the equipment has higher product competitiveness.
In order to achieve the purpose, the invention adopts the technical scheme that:
the manufacturing equipment of the prepared food with modeling patterns comprises a transmission mechanism and a grouting mechanism, wherein the grouting mechanism comprises a grouting pipe fitting, a driven gear, a mold and a pattern piece, the mold is partially embedded in the driven gear, the upper end of the driven gear is connected with the grouting pipe fitting, and a slurry channel in the grouting pipe fitting is communicated with an inner cavity of the mold; the flower piece is attached to the lower end face of the die, a discharge hole is formed in the flower piece, and at least one scraping tooth is formed in the inner periphery of the discharge hole; the driven gear is connected with a transmission mechanism, and the transmission mechanism drives the driven gear to rotate forward and backward alternately.
The transmission mechanism comprises a motor, a rotary table, a transmission shaft assembly and a transmission gear, the rotary table is connected with a motor shaft of the motor, the transmission shaft assembly comprises a first transmission shaft and a second transmission shaft, one end of the first transmission shaft is fixed on the rotary table, the other end of the first transmission shaft is pivoted to one end of the second transmission shaft, the other end of the second transmission shaft is fixedly connected with the transmission gear, and the transmission gear is meshed with the driven gear.
The transmission mechanism comprises a positive and negative motor and a driven gear, and the driven gear is connected with a motor shaft of the positive and negative motor.
The upper end of the mould is a mould pulp inlet, the lower end of the mould is a mould pulp outlet, the mould pulp outlet corresponds to the discharge hole of the flower piece, and the caliber of the inner cavity of the mould is gradually reduced from the mould pulp inlet to the mould pulp outlet.
The die and the driven gear are locked through screws, screw holes are formed in the side wall of the die, correspondingly, screw holes are formed in the side wall of the driven gear, and the screws penetrate through the screw holes in the driven gear and then are locked with the screw holes in the die.
The outside of mould is equipped with the screw thread, correspondingly, driven gear inboard is equipped with the screw thread, the mould passes through screw thread fit connection with driven gear.
And the grouting pipe fitting is provided with a stuffing grouting opening communicated with the slurry channel.
And the grouting pipe fitting is also provided with a leather slurry injection port communicated with the slurry channel.
And the grouting pipe fitting is also provided with a color paste injection port communicated with the slurry channel.
When the equipment provided by the invention is used for preparing the prepared food, the wave patterns can be formed on the outer surface of the prepared food, compared with the existing prepared food, the prepared food has higher innovation of the appearance, can attract the eyeball of a consumer, and has higher competitiveness.
Detailed Description
In order to make the technical contents, structural features, attained objects and effects of the present invention more complete, the present invention will be described in detail with reference to the accompanying drawings.
The invention discloses a manufacturing device of prepared food with modeling patterns, which comprises a transmission mechanism and a grouting mechanism.
Referring to fig. 1 and 2, the transmission mechanism includes a motor 1, a turntable 3, a transmission shaft assembly and a transmission gear 6, wherein the turntable 3 is connected to a motor shaft 2 of the motor 1, and after the motor 1 is started, the motor shaft 2 drives the turntable 3 to rotate; the transmission shaft assembly comprises a first transmission shaft 4 and a second transmission shaft 5, one end of the first transmission shaft 4 is fixed on the turntable 3, the other end of the first transmission shaft is pivoted to one end of the second transmission shaft 5, and the other end of the second transmission shaft 5 is fixedly connected with a transmission gear 6.
When the rotary table 3 rotates, the first transmission shaft 4 rotates along with the rotary table 3, and the second transmission shaft 5 drives the transmission gear 6 to rotate forward and backward alternately under the action of the first transmission shaft 4. That is to say, when the motor 1 drives the rotary table 3 to rotate for one circle, the transmission gear 6 rotates forward and then rotates backward under the action of the transmission shaft assembly, the rotary table 3 continues to rotate, and the transmission gear 6 rotates forward and backward alternately.
Referring to fig. 1 and fig. 3 to 7 together, the grouting mechanism includes a grouting pipe 7, a driven gear 11, a mold 13 and a flower 12, wherein a slurry channel is formed in the grouting pipe 7, and a filling slurry injection port 8 can be arranged on the grouting pipe 7, and the filling slurry injection port 8 is communicated with the slurry channel.
The upper end of the driven gear 11 is connected with the lower end of the grouting pipe fitting 7, the driven gear 11 is meshed with the transmission gear 6 of the transmission mechanism, and the transmission gear 6 drives the driven gear 11 to rotate forward and backward alternately when rotating forward and backward alternately.
The transmission mechanism can also be realized by adopting a forward and reverse rotation motor to be connected with the driven gear 6, and the forward and reverse rotation of the driven gear 6 can be realized by controlling the forward and reverse rotation of the motor to be alternated.
The die 13 is partially embedded in the driven gear 11, and the driven gear 11 drives the die 13 to rotate; specifically, screw holes may be formed in the side walls of the mold 13 and the driven gear 6, and then screws may be passed through the screw holes to lock the mold 13 and the driven gear 6; of course, the outer surface of the mold 13 may be provided with threads, the inner side surface of the driven gear 6 may be provided with threads, and the mold 13 and the driven gear 6 may be connected together by thread fitting. The upper end of the mould 13 is a mould pulp inlet 131, the lower end is a mould pulp outlet 132, and a cavity communicated with the pulp inlet 131 and the pulp outlet 132 is formed in the mould and communicated with the pulp channel. Slurry enters the slurry channel from the slurry inlet 8 of the grouting pipe fitting 7 and then enters the mold 13 for molding, and in order to ensure the compactness of the surimi product, the caliber of the cavity of the mold 13 can be gradually reduced from the slurry inlet 131 to the slurry outlet 132 of the mold.
The flower slice 12 is provided with a discharge port 121 corresponding to the slurry outlet 132 of the mold, at least one scraping tooth 122 is formed on the inner periphery of the discharge port 121, and the number of the scraping teeth 122 is related to the number of the wavy patterns formed on the surimi product. In this embodiment, four scraping teeth 122 are formed inside the discharging hole 121. The flower piece 12 is connected to the lower end of the mold 13, and the upper end surface of the flower piece 12 is attached to the lower end surface of the mold 13.
When the equipment with the structure is used for preparing the prepared food, the shape formed on the surface of the prepared food can be adjusted by adjusting the lengths of the first transmission shaft and the second transmission shaft of the transmission mechanism, adjusting the gear ratio of the transmission gear and the driven gear and adjusting the number of scraping teeth of the flower slices.
The driven gear of the equipment is set to rotate forward by 1/4 ring and rotate backward by 1/4 ring alternately, the number of the scraping teeth is four, then when the equipment is used for preparing the minced fillet product, slurry is injected into the slurry channel from the slurry injection port 8 of the slurry pipe fitting 7, then the slurry enters the mold 13 and rotates forward and backward alternately along with the mold 13, and when the equipment rotates, the slurry is extruded to gradually move downward, and finally discharged from the discharge port 121 of the flower piece 12, so that the minced fillet product is formed. When the surimi product passes through the slurry outlet 132 of the mold and passes through the discharge outlet of the flower slice 12, the scraping teeth 122 of the flower slice 12 scrape part of the outer surface layer of the surimi product, and the surimi product rotates forwards and backwards alternately and downwards, but the flower slice 12 is fixed, so that the surimi product discharged through the discharge outlet 121 of the flower slice 12 forms scraping marks in a wave pattern shape, thereby forming the surimi product with the wave pattern. Compared with the existing minced fillet product, the minced fillet product has higher appearance innovation, can attract the eyes of consumers, and has higher competitiveness.
On the basis of the structure, a leather grout injection port 9 can be additionally arranged on the grouting pipe fitting 7, and the leather grout injection port 9 is communicated with a grout channel. When the device with the structure is adopted, the stuffing slurry and the skin slurry can be respectively injected into the slurry channel from the stuffing slurry injection port 8 and the skin slurry injection port 9 of the slurry pipe fitting 7, a skin slurry layer wrapped stuffing slurry layer double-layer structure surimi product is formed in the slurry channel, the surimi product enters the mold 13 and rotates forward and backward alternately along with the mold 13, and the surimi product gradually moves downwards while rotating and finally discharges from the discharge port 121 of the flower piece 12. When the surimi product passes through the discharge port 121 of the flower slice 12, the scraping teeth 122 of the flower slice 12 scrape part of the outer surface layer of the surimi product, and the surimi product is rotated forward and backward alternately and downwards, so that the surimi product discharged through the discharge port 121 of the flower slice 12 forms wavy-pattern scraping marks on the surface thereof, thereby forming the surimi product with the wavy pattern. The length of the scraping teeth 122 is the depth of the scratches generated on the minced fillet product, so that the length of the scraping teeth 122 is equal to the thickness of the skin pulp layer of the minced fillet product, and simultaneously, the stuffing pulp and the skin pulp are modulated into different colors. Thus, when the surimi product passes through the flower slices 12, the scraping teeth 122 can scrape the skin slurry layer to expose the stuffing slurry layer, and because the skin slurry layer and the stuffing slurry layer have different colors, the formed wavy patterns of the surimi product are more obvious, thereby improving the aesthetic property of the surimi product.
On the basis of the structure, a color paste injection port 10 communicated with the slurry channel can be additionally arranged on the grouting pipe fitting 7, so that the grouting pipe fitting 7 is provided with a filling slurry injection port 8, a leather slurry injection port 9 and a color paste injection port 10. The surimi product with a three-layer structure can be formed by using the device, and compared with the existing surimi product, the surimi product has higher appearance innovation, can attract the eyeballs of consumers and has higher competitiveness.
The above description is only an example of the present invention, and does not limit the technical scope of the present invention, so that any minor modifications, equivalent changes and modifications made to the above embodiment according to the technical essence of the present invention are within the technical scope of the present invention.