Disclosure of Invention
The technical problem is as follows: at present, the packaging mode of fried rice takeout is too dependent on manpower, and the taste is deteriorated due to easy cooling.
In order to solve the problems, the embodiment designs a rice frying and takeout packing machine, which comprises a box body, wherein a fixing frame is fixedly arranged on the right side of the box body, an elastic knife moving inner groove for storing fried rice is fixedly arranged on the lower side of the fixing frame, a rotating motor for fried rice is fixedly arranged in the fixing frame, a rotating shaft for fried rice extending into the heat preservation pot is fixedly arranged on an output shaft on the lower side of the rotating motor for fried rice, blades for stirring the fried rice and preventing the fried rice from being solidified are fixedly arranged on the rotating shaft for fried rice, a rice inlet is arranged at the top of the heat preservation pot, a pot cover is hinged to the upper side of the rice inlet, the fried rice which is just fried can be stored into the heat preservation pot by opening the pot cover, the pot cover can be closed to prevent the fried rice in the heat preservation pot from being rapidly cooled, a rice outlet is fixedly arranged on the lower side of the heat preservation pot, and, the food box comprises a box body, and is characterized in that a limit bearing plate capable of fixing a stir-frying lunch box is slidably connected in the top pressure space, a top pressure spring is connected between the bottom wall of the top pressure space and the bottom of the limit bearing plate, a feeding device used for adding stir-frying food to the stir-frying lunch box in the limit bearing plate is arranged in the box body, a cover storage channel with an upward opening is arranged in the box body, a standby box cover can be stored in the cover storage channel, second transmission spaces are symmetrically arranged on the left side and the right side of the cover storage channel, a movable plate is connected to the lower side of the cover storage channel in an inner sliding mode, and a movable plate is slidably connected to the lower side of the cover storage channel in an inner sliding mode.
Wherein, feeding device include sliding connection in go out intraoral left side open-close plate of meal, sliding connection has right open-close plate in going out meal, right side open-close plate right side sets firmly the pull ring that is used for the pulling, both sides have set firmly the left side board of symmetry around the open-close plate of a left side, left side inboard side has set firmly left rack board, both sides have set firmly the right side board of symmetry around the open-close plate of the right side, right side board has set firmly right rack board, it is connected with the jackshaft to rotate in the interior wall of meal, set firmly on the jackshaft mesh connect in left side rack board with the intermediate gear of right rack board.
Wherein, be equipped with first transmission space in the box, left side open-close plate left side has set firmly the connecting rod that stretches into in the first transmission space, the connecting rod upside has set firmly the rack board that opens and shuts, the back wall internal rotation in first transmission space is connected with the gear for the meshing rack, set firmly the meshing on the gear for the meshing rack connect in the gear shaft for the meshing rack of rack board, set firmly the gear for the special gear of meshing on the gear for the meshing rack, the wall internal rotation is connected with line wheel axis of rotation behind the first transmission space, set firmly the meshing on the line wheel axis of rotation connect in the special gear of the special gear for the meshing, it is equipped with the interior shift groove of ratchet tooth to be the annular distribution on the special gear round side, the hinge mount is installed to interior shift groove one side of ratchet, the last articulated ratchet tooth that has of hinge mount, when special gear clockwise rotates, thereby can drive the special gear of meshing for the special gear with the special gear meshing, when special gear anticlockwise rotates, can not with the special gear meshing for the special gear of meshing, so can not drive the special gear of meshing and rotate, the line takes turns to the axis of rotation and has the connection in the special gear axle of first transmission space antetheca and special gear front side torsion spring for the gear shaft, spacing bearing plate left side has set firmly the connecting plate, be connected with the connecting wire between connecting plate and the special gear, thereby can drive the gear of meshing rack through the meshing of opening and shutting rack board and the gear axle of meshing rack when the connecting rod moves to the left side, meshing rack drives the special gear that line takes turns to fixed on the axis of rotation and rotates and makes the torsion spring of special gear axle loose, and special gear rotates and drives the connecting plate through the connecting wire rebound, namely, the limit bearing plate is driven to move upwards.
Beneficially, the inner side of the special gear is provided with an elastic cutter moving inner groove in an annular distribution mode, the elastic cutter moving inner groove is connected with a one-way clutch elastic cutter in a sliding mode, the inner side of the special gear is provided with an elastic cutter moving outer groove corresponding to the elastic cutter moving inner groove, the one-way clutch elastic cutter can extend into the elastic cutter moving outer groove, and an elastic cutter spring connected to the inner wall of the elastic cutter moving inner groove and the one-way clutch elastic cutter is arranged in the elastic cutter moving inner groove.
Wherein, the falling device comprises a movable plate rack plate fixedly arranged at the rear side of the bottom of the movable plate, a driving motor is fixedly arranged on the inner wall of the second transmission space, a driving main shaft is fixedly arranged on an output shaft at the front side of the driving motor, a main shaft driving front gear meshed with the movable plate rack plate is fixedly arranged on the driving main shaft, a pinion is fixedly arranged on the driving main shaft, a transmission shaft is rotatably connected to the inner wall of the second transmission space, a large gear meshed with the pinion is fixedly arranged on the transmission shaft, an incomplete gear is fixedly arranged at the front side of the transmission shaft, bilaterally symmetrical driven shafts are rotatably connected to the front wall of the second transmission space, a gear meshed with the incomplete gear is fixedly arranged at the rear side of the driven shaft at the right side, a gear meshed with an idle gear is fixedly arranged on the driven, an idler shaft is rotatably connected to the rear wall of the second transmission space, and an idler which is connected to the gear for the meshing idler in a meshing mode is fixedly arranged on the front side of the idler shaft.
Wherein, the rear wall of the moving plate is hinged with a torsion spring shaft which is symmetrical left and right, the torsion spring shaft has the tendency of returning to the position in the figure, the torsion spring shaft is fixedly provided with a rotation bending piece which is symmetrical left and right, the rotation bending piece is provided with an instant box cover used for sealing and frying the lunch box, the inner wall of the left side is rotatably connected with a channel inner wire wheel shaft, the channel inner wire wheel shaft is fixedly provided with a channel inner wire wheel, the channel inner wire wheel shaft is wound with a channel inner wire wheel torsion spring connected with the channel inner wire wheel and the front wall, the rear wall of the moving plate at the right side of the instant box cover is rotatably connected with a channel inner large wire wheel shaft, the channel inner large wire wheel shaft is fixedly provided with a channel inner large wire wheel, a first connecting wire passing through the channel inner large wire wheel is connected between the torsion spring shaft at the right side and the channel inner wire wheel, the rear wall of the moving plate at the left side, the utility model discloses a portable power transmission line, including movable plate back wall, first little line wheel in the passageway, the last second little line wheel in the passageway that has set firmly of second little line wheel on the second little line wheel in the passageway, second little line wheel left side is equipped with in the passageway rotate connect in first little line wheel in the passageway in the movable plate back wall, first little line wheel in the passageway has set firmly on the first little line wheel in the passageway, left torsional spring axle with be connected with between the line wheel in the passageway through first little line wheel in the passageway with the second connecting wire of second little line wheel in the passageway.
The invention has the beneficial effects that: compared with the traditional packaging mode for taking the fried rice out, the cooling speed and solidification of the fried rice are slowed down by the heat insulation box and the stir-frying in the heat insulation box, the fried rice can be quantitatively sent out and placed into the fried rice box through a mechanical structure, the fried rice can be sent out of the cover box to seal the fried rice box after being placed, and the cover box can be automatically replenished again.
Detailed Description
The invention will now be described in detail with reference to fig. 1-7, for ease of description, the orientations described below will now be defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.
The invention relates to a rice frying takeout packaging machine, which is further explained by combining the attached drawings of the invention:
the invention relates to a rice frying takeout packaging machine, which comprises a box body 11, wherein a fixed frame 14 is fixedly arranged at the right side of the box body 11, an elastic knife moving inner groove 76 for storing fried rice is fixedly arranged at the lower side of the fixed frame 14, a rice frying rotating motor 15 is fixedly arranged in the fixed frame 14, a rice frying rotating shaft 19 extending into a heat preservation pot 22 is fixedly arranged on an output shaft at the lower side of the rice frying rotating motor 15, blades 18 for stirring the fried rice to prevent the fried rice from being solidified are fixedly arranged on the rice frying rotating shaft 19, a rice inlet 17 is arranged at the top of the heat preservation pot 22, a pot cover 16 is hinged at the upper side of the rice inlet 17, the fried rice which is just fried can be stored into the heat preservation pot 22 by opening the pot cover 16, the fried rice in the heat preservation pot 22 can be prevented from being rapidly cooled by closing the pot cover 16, a rice outlet 20 is fixedly arranged at the lower side of the heat preservation pot 22, a jacking space 24 is arranged, the food box frying device is characterized in that a limiting bearing plate 21 capable of fixing a fried food box is connected in the jacking space 24 in a sliding mode, a jacking spring 23 is connected between the bottom wall of the jacking space 24 and the bottom of the limiting bearing plate 21, a feeding device 101 used for adding fried food to the fried food box fixed in the limiting bearing plate 21 is arranged in the box body 11 and the food outlet 20, a cover storage channel 12 with an upward opening is arranged in the box body 11, the cover storage channel 12 can store a spare box cover 13, second transmission spaces 34 are symmetrically arranged on the left side and the right side of the cover storage channel 12, 49 are arranged on the lower side of the cover storage channel 12, a moving plate 43 is connected in the 49 in a sliding mode, and a falling device food outlet 201 used for placing the spare box cover 13 into the moving plate 43 is arranged in the second transmission space 34 and the 49.
According to the embodiment, the following detailed description will be made on the feeding device 101, the feeding device 101 includes a left opening plate 70 slidably connected to the inside of the meal outlet 20, a right opening plate 63 slidably connected to the inside of the meal outlet 20, a pulling ring 62 for pulling is fixedly provided on the right side of the right opening plate 63, symmetrical left side plates 69 are fixedly provided on the front and rear sides of the left opening plate 70, a left rack plate 65 is fixedly provided on the inner side of the left side plate 69, a symmetrical right side plate 64 is fixedly provided on the front and rear sides of the right opening plate 63, a right rack plate 68 is fixedly provided on the right side plate 64, an intermediate shaft 66 is rotatably connected to the inner wall of the meal outlet 20, an intermediate gear 67 engaged with the left rack plate 65 and the right rack plate 68 is fixedly provided on the intermediate shaft 66, when the pulling ring 62 is manually pulled, the pulling ring 62 moves the right opening plate 63 rightwards, the right opening plate 63 drives the right side plate 64, the right side plate 64 is moved rightward by the engagement of the right rack plate 68 with the intermediate gear 67 and the engagement of the intermediate gear 67 with the left rack plate 65 to move the left side plate 69 leftward, that is, to move the left opening plate 70 leftward.
According to the embodiment, a first transmission space 33 is arranged in the box body 11, the left side of the left opening plate 70 is fixedly provided with a connecting rod 28 extending into the first transmission space 33, the upper side of the connecting rod 28 is fixedly provided with an opening and closing rack plate 29, the rear wall of the first transmission space 33 is rotatably connected with a gear 32 for a meshing rack, the gear 32 for the meshing rack is fixedly provided with a gear shaft 31 for the meshing rack connected with the opening and closing rack plate 29, the gear 32 for the meshing rack is fixedly provided with a gear 72 for meshing special gears, the rear wall of the first transmission space 33 is rotatably connected with a reel rotating shaft 30, the reel rotating shaft 30 is fixedly provided with a special gear 71 meshed with the gear 72 for meshing special gears, the circular side surface of the special gear 71 is provided with a ratchet tooth inner moving groove 75 in an annular distribution manner, and one side of the ratchet tooth inner moving groove 75 is provided with a hinge bracket 73, the hinge frame 73 is hinged with ratchet teeth 74 which can be engaged with the gear 72 for engaging the special gear to drive the gear 72 for engaging the special gear to rotate when the special gear 71 rotates clockwise, can not be engaged with the gear 72 for engaging the special gear when the special gear 71 rotates counterclockwise, and can not drive the gear 72 for engaging the special gear to rotate, can be engaged with the special gear 71 to drive the special gear 71 to rotate when the gear 72 for engaging the special gear rotates clockwise, and can not be engaged with the special gear 71 when the gear 72 for engaging the special gear rotates counterclockwise, and can not drive the gear 72 for engaging the special gear to rotate, the reel rotating shaft 30 is wound with a torsion spring 77 for special gear shaft connected to the front wall of the first transmission space 33 and the front side of the special gear 71, the left side of the limit bearing plate 21 is fixedly provided with a connecting plate 25, a connecting line 26 is connected between the connecting plate 25 and the special gear 71, when the connecting rod 28 moves towards the left side, the engaging rack plate 29 is engaged with the engaging rack gear shaft 31 to drive the engaging rack gear 32 to rotate, the engaging rack gear 32 rotates to drive the special gear 71 fixed on the wire wheel rotating shaft 30 to rotate to loosen the torsion spring 77 for the special gear shaft, the special gear 71 rotates to drive the connecting plate 25 to move upwards through the connecting line 26, namely, the limit bearing plate 21 moves upwards, when the weight borne by the limit bearing plate 21 increases, the limit bearing plate 21 moves downwards to drive the connecting plate 25 to move downwards, the connecting plate 25 moves downwards to drive the special gear 71 to rotate through the connecting line 26, the special gear 71 rotates to drive the engaging special gear 72 to rotate, namely, the engaging rack gear shaft 32 rotates, the engaging rack gear 32 rotates to drive the engaging rack opening and closing rack plate 29 through the engagement of the engaging rack gear shaft 31 and the engaging rack gear shaft 29 to drive the opening The plate 29 moves to the right, which moves the left fixed plate 70 on the right side of the connecting rod 28.
Beneficially, the reel rotating shaft 30 inside the special gear 71 is annularly provided with elastic knife moving inner grooves 76, the elastic knife moving inner grooves 76 are connected with one-way clutch elastic knives 79 in a sliding mode, the elastic knife moving outer grooves 80 corresponding to the elastic knife moving inner grooves 76 are arranged inside the special gear 71, the one-way clutch elastic knives 79 can extend into the elastic knife moving outer grooves 80, elastic knife springs 78 connected to the inner walls of the elastic knife moving inner grooves 76 and the one-way clutch elastic knives 79 are arranged inside the elastic knife moving inner grooves 76, when the connecting plate 25 meets with a blockage during the counterclockwise rotation of the special gear 71, the special gear 71 still rotates, the elastic knife moving outer grooves 80 are pressed to shrink towards the inner side of the reel rotating shaft 30 along the elastic knife moving inner grooves 76 so as to be separated from the elastic knife moving outer grooves 80, and the special gear 71 cannot rotate to drive the reel rotating shaft 30.
According to the embodiment, the falling device 201 is described in detail below, the falling device 201 includes a moving plate rack plate 81 fixed on the rear side of the bottom of the moving plate 43, a driving motor 60 is fixed on the inner wall of the second transmission space 34, a driving spindle 46 is fixed on an output shaft on the front side of the driving motor 60, a spindle driving front gear 47 engaged with the moving plate rack plate 81 is fixed on the driving spindle 46, a pinion 61 is fixed on the driving spindle 46, a transmission shaft 58 is rotatably connected on the inner wall of the second transmission space 34, a large gear 57 engaged with the pinion 61 is fixed on the transmission shaft 58, an incomplete gear 59 is fixed on the front side of the transmission shaft 58, a left and right symmetrical driven shaft 52 is rotatably connected on the front wall of the second transmission space 34, a gear 56 for engaging the incomplete gear is fixed on the rear side of the right driven shaft 52, a gear 55 for an idler gear is fixedly arranged on the driven shaft 52, an idler shaft 54 is rotatably connected to the rear wall of the second transmission space 34, an idler gear 82 which is connected to the gear 55 for the idler gear in a meshing manner is fixedly arranged on the front side of the idler shaft 54, the driving motor 60 can drive the driving main shaft 46 to rotate when being started, the driving main shaft 46 rotates to drive the moving plate 43 to move left and right through the meshing between the main shaft driving front gear 47 and the moving plate rack plate 81, the driving main shaft 46 rotates to drive the transmission shaft 58 to rotate through the meshing between the small gear 61 and the large gear 57, the transmission shaft 58 rotates to drive the driven shaft 52 on the right side to rotate through the meshing between the incomplete gear 59 and the gear 56 for the right incomplete gear, the driven shaft 52 on the right side rotates to drive the idler shaft 54 to rotate through the meshing between the gear 55 for the idler gear on the right side The gear 55 for the mesh idle gear on the left side rotates in the opposite direction to the gear 55 for the mesh idle gear on the right side, and the gear 55 for the mesh idle gear rotates to drive the cover rotating head 53 to rotate, thereby driving the cover sheet 51 to rotate to drop the spare box cover 13.
According to the embodiment, the rear wall of the moving plate 43 is hinged with a left-right symmetrical torsion spring shaft 83, the torsion spring shaft 83 tends to return to the position shown in the figure, the torsion spring shaft 83 is fixedly provided with a left-right symmetrical turning piece 45, the turning piece 45 is provided with a ready-to-use box cover 44 for sealing a stir-fry lunch box, the inner wall of the left side of the ready-to-use box cover 49 is rotatably connected with a channel inner wire wheel shaft 37, the channel inner wire wheel shaft 37 is fixedly provided with a channel inner wire wheel 35, the channel inner wire wheel shaft 37 is wound with a channel inner wire wheel shaft torsion spring 36 connected between the channel inner wire wheel 35 and the front wall of the ready-to-use box cover 49, the rear wall of the moving plate 43 at the right side of the ready-to-use box cover 44 is rotatably connected with a channel inner large wire wheel shaft 48, the channel inner large wire wheel shaft 48 is fixedly provided with a channel inner large wire wheel 50, a first connecting wire 84 passing through, a second small-wire shaft 41 in a channel is rotatably connected to the rear wall of the moving plate 43 on the left side of the instant box cover 44, a second small-wire wheel 40 in the channel is fixedly arranged on the second small-wire shaft 41 in the channel, a first small-wire shaft 39 in the channel which is rotatably connected to the rear wall of the moving plate 43 is arranged on the left side of the second small-wire shaft 41 in the channel, a first small-wire wheel 38 in the channel is fixedly arranged on the first small-wire shaft 39 in the channel, a second connecting wire 42 which passes through the first small-wire wheel 38 in the channel and the second small-wire wheel 40 in the channel is connected between the torsion spring shaft 83 on the left side and the wheel 35 in the channel, when the main shaft drives the front gear 47 to rotate to drive the moving plate 43 to move rightwards and move to the position right above the limit bearing plate 21, all wires wound on the wheel 35 in the channel by the second connecting wire 42 and the first connecting wire 84 are pulled out, the second connection line 42 and the first connection line 84 drive the torsion spring shaft 83 to rotate, so that the instant box cover 44 can fall, and the torsion spring shaft 83 continues to rotate to press the instant box cover 44 falling onto the rice frying box, so as to strengthen the sealing of the instant box cover 44 on the rice frying box.
The following will explain in detail the operation of a rice frying takeout baler in this context with reference to fig. 1 to 7: in the initial state, the left opening plate 70 and the right opening plate 63 are attached to each other, the moving plate 43 is at the left limit position, and the connecting plate 25 is at the upper limit position.
When the cooked rice needs to be cooked, the cooked rice box is manually placed on the limit bearing plate 21, the pull ring 62 is manually pulled rightwards to drive the right opening plate 63 to move rightwards, the right opening plate 63 moves rightwards to drive the left opening plate 70 to move leftwards through the meshing between the right rack plate 68 and the middle gear 67 and the meshing between the middle gear 67 and the left rack plate 65, the connecting rod 28 is driven to move leftwards, the meshing between the opening and closing rack plate 29 and the meshing rack gear shaft 31 drives the meshing rack gear 32 to rotate, the meshing rack gear 32 rotates to drive the special gear 71 fixed on the wire wheel rotating shaft 30 to rotate, the special gear 71 rotates to drive the wire wheel rotating shaft 30 to rotate through the connecting wire 26, the special gear 71 cannot drive the rotating wire wheel 30 to rotate due to the fact that the connecting plate 25 is in the upper limit position, the cooked rice in the heat preservation pot 22 is conveyed into the cooked rice box on the upper side of the limit bearing plate 21 through the, the weight carried by the limit bearing plate 21 is increased, the limit bearing plate 21 moves downwards to drive the connecting plate 25 to move downwards, the connecting plate 25 moves downwards to drive the special gear 71 to rotate through the connecting wire 26, the special gear 71 rotates to drive the gear 72 for meshing the special gear to rotate, namely, the gear 32 for meshing a rack is driven to rotate, the gear 32 for meshing the rack rotates to drive the opening and closing rack plate 29 to move rightwards through the meshing of the gear shaft 31 for meshing the rack and closing rack plate 29, namely, the left opening plate 70 fixed on the right side of the connecting rod 28 moves rightwards, the left opening plate 70 moves rightwards to drive the right opening plate 63 to move leftwards so as to close the rice outlet 20 and prevent the cooked rice from being sent out, then the driving motor 60 is started to drive the driving main shaft 46 to rotate, the driving main shaft 46 drives the moving plate 43 to move rightwards, when the moving plate 43 is about to move to the position right above the limit bearing plate 21, the wires wound on the inner wire wheel 35 of the channel by the second connecting wire 42 and the first connecting wire 84 are all pulled out, the moving plate 43 still moves rightwards, because the force on 36 is greater than the force on the torsion spring shaft 83, the second connecting wire 42 and the first connecting wire 84 drive the torsion spring shaft 83 to rotate, so that the instant box cover 44 can fall, the torsion spring shaft 83 continues to rotate to press the instant box cover 44 falling onto the rice box, the sealing of the rice box by the instant box cover 44 is enhanced, then the driving motor 60 drives the driving main shaft 46 to rotate reversely, the moving plate 43 moves leftwards, the driving main shaft 46 rotates to drive the driving shaft 58 to rotate through the meshing of the small gear 61 and the large gear 57, the driving shaft 58 rotates to drive the driven shaft 52 on the right side through the meshing of the incomplete gear 56 on the right side through the incomplete, the right driven shaft 52 rotates to drive the idle shaft 54 to rotate through the meshing between the right meshed idle gear 55 and the idle gear 82, the idle shaft 54 rotates to drive the left driven shaft 52 to rotate through the meshing between the idle gear 82 and the left meshed idle gear 55, the rotation direction of the left meshed idle gear 55 is opposite to that of the right meshed idle gear 55, and the meshed idle gear 55 rotates to drive the cover clamping rotating head 53 to rotate so as to drive the cover clamping piece 51 to rotate for the falling supplement of the spare box cover 13.
The invention has the beneficial effects that: compared with the traditional packaging mode for taking the fried rice out, the cooling speed and solidification of the fried rice are slowed down by the heat insulation box and the stir-frying in the heat insulation box, the fried rice can be quantitatively sent out and placed into the fried rice box through a mechanical structure, the fried rice can be sent out of the cover box to seal the fried rice box after being placed, and the cover box can be automatically replenished again.
The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.