CN218552162U - Intelligence fried dish machine loading attachment - Google Patents

Abstract

The utility model provides an intelligent cooker feeding device, which relates to the technical field of intelligent kitchenware and comprises a control cabinet and a material box, wherein the control cabinet is provided with a driving box and a feeding component for overturning and discharging the material box; this intelligent machine of cooking among the device prior art just needs the manual work to pour the edible material of culinary art into interior pot before stir-fry, thereby the flow of directly mixing to stew cooked fry can not control the culinary art temperature of various edible materials and lead to the not good enough problem of look fragrant smell of whole dish like this, and this device is automatic realizes successively adding of different edible materials to let every edible material fry under suitable culinary art temperature, guarantee the look fragrant smell of dish.

Description

Intelligence fried dish machine loading attachment

Technical Field

The utility model belongs to the technical field of intelligence kitchen utensils and appliances technique and specifically relates to an intelligence machine loading attachment of cooking.

Background

Cooking refers to the art of diet, a complex and regular process of converting food material into food. Is a processing mode and a method for processing food materials to make the food more delicious, more beautiful and more smelly.

The dish frying process includes the steps of putting one or more dishes in a special concave pot, taking the heat conducted to the iron pot by fire as a carrier, adding oil, seasonings and dishes, and turning the dishes by a special tool, namely a slice.

Traditional fried dish flow generally adopts artifical mode to accomplish before, and the user generally need hold the slice and incessantly overturn the fried dish to add the condiment as required until accomplishing the process of frying, along with the continuous development of science and technology, automatic intelligent frying pan produces, and its purpose is in order to alleviate the intensity of labour of artifical fried dish, automatic pipelining.

Publication No. CN212186131U, which proposes an automatic frying pan, the structure includes a pan body (10), at least a part of the pan body (10) is used for being embedded into a base to be fixed; the pot cover assembly (20) is arranged on the pot body (10), the pot cover assembly (20) comprises a cover body (22), the cover body (22) is rotatably arranged on the pot body (10), the cover body (22) is provided with an opening position for avoiding the pot body (10) and a closing position for covering the pot body (10), and the cover body (22) is arranged by protruding out of a fixing surface of a foundation to be fixed; this structure can automize and realize the flow of cooking, can avoid the user to take place to scald when using simultaneously, and the user of also being convenient for operates the pot cover, but just needs the manual work to pour the edible material of culinary art into interior pot totally before stir-fry to close the pot cover, thereby the flow of direct mixing stir-fry of braising thoroughly can not control the culinary art temperature of various edible materials and lead to the look fragrant smell of whole cooked food not good enough like this.

SUMMERY OF THE UTILITY MODEL

Just need the manual work to pour into interior pot to the edible material of culinary art before frying to exist among the prior art to close the pot cover, thereby the flow of so directly mixing to stew cooked fry can not control the culinary art temperature of various edible materials and lead to the not good enough problem of look flavor and taste of whole cooked food, the utility model provides an intelligence machine loading attachment of cooking can avoid the emergence of above-mentioned problem.

The utility model provides a technical scheme that its technical problem adopted is:

the utility model provides an intelligence fried dish machine loading attachment, includes switch board and magazine, is provided with the drive case on the switch board and is used for the material loading subassembly of unloading to the magazine upset, is provided with the drive assembly who is used for driving the magazine and makes reciprocating motion in the drive case, and drive assembly is connected with places the board, places and is provided with a plurality of standing groove on the board, has placed the magazine in the standing groove respectively.

This device has been solved intelligent machine of cooking among the prior art just needs the manual work to pour the edible material of culinary art into interior pot before stir-fry, thereby the flow of directly mixing to stew cooked and fry can not control the culinary art temperature of various edible materials and lead to the not good enough problem of look fragrant smell of whole dish like this, and this device is automatic realizes successively adding of different edible materials to let every edible material fry under suitable culinary art temperature, guarantee the look fragrant smell of dish.

Further, the material loading subassembly includes motor case, fixing base, pivot, material loading seat and material loading piece, is provided with motor case and fixing base on the control cabinet, and the motor incasement is provided with the rotating electrical machines, and the rotating electrical machines is connected with the pivot, and the one end and the fixing base of pivot rotate to be connected, are provided with the material loading seat in the pivot, are provided with the material loading piece on the material loading seat, and the material loading piece cooperatees with the chuck that sets up on the magazine.

In the scheme, the feeding block is driven by the rotating motor to turn over and move to one side of one of the material box chucks, and then the feeding block enters the chuck to complete the connection of the feeding block and the chuck.

Furthermore, a connecting roller is arranged on the rotating shaft, and a photoelectric sensor is arranged on the connecting roller.

The photoelectric sensor can detect whether the material box moves or not in the scheme, so that the material feeding block is driven to deflect to one side of the material box chuck in time to efficiently match the material feeding.

Further, the drive assembly includes driving motor, the action wheel, the hold-in range, from the driving wheel, the connecting plate, the sliding plate, a slide rail, the connecting rod, fixing bolt and removal hole, the drive incasement internal rotation is connected with the action wheel and follows the driving wheel, the action wheel is connected with driving motor, the action wheel passes through synchronous belt drive with following the driving wheel, be provided with the connecting plate on the hold-in range, the both ends of connecting plate are connected with the sliding plate respectively, the sliding plate with set up the slide rail sliding fit in drive incasement portion, be provided with the connecting rod on the sliding plate, the removal pore symmetry is seted up on the drive case, the connecting rod passes and is provided with a plurality of fixing bolt on removal hole and the connecting rod, fixing bolt is connected with places the board.

Thereby can realize placing the directional reciprocating motion of a plurality of magazines on the board and accomplish different food material successively automatic interpolation material loading flows through drive assembly's drive in the above-mentioned scheme.

Further, the chuck includes fixed plate and cardboard, and the fixed plate setting is on the magazine, and the cardboard is the L type and sets up about the fixed plate symmetry, and the cooperation has the material loading piece between two cardboards.

Furthermore, matching grooves are symmetrically formed in the clamping plate, telescopic steel balls are symmetrically arranged on the feeding seat, one end of each telescopic steel ball is connected with a spring, the springs are arranged inside the feeding seat, and the telescopic steel balls are matched with the matching grooves.

Position between material loading block and the chuck can be limited in the above scheme, the error after the material loading block and the chuck are connected in a matched mode is reduced, and the follow-up discharging effect is guaranteed.

Furthermore, be provided with the assistance-localization real-time board on the fixed plate, the assistance-localization real-time board is in between two cardboard, and the symmetry is provided with spacing hole on the cardboard, has seted up the constant head tank on the assistance-localization real-time board, is provided with lug and a plurality of locating piece on the material loading piece, and the lug cooperatees with spacing hole, and the constant head tank cooperatees with the locating piece.

According to the scheme, the material box can not be in position swing between the overturning and discharging process and the feeding block, and meanwhile can be conveniently connected and separated, so that the material box is fast and efficient.

Furthermore, a cover plate is further arranged on the driving box, and the cover plate is located above the moving hole and is arranged at an interval with the placing plate.

Thereby can avoid eating the material and spill over to the magazine outside at the in-process that supplyes the material in the magazine through the apron among the above-mentioned scheme and carelessly fall into the inconvenient problem of follow-up clearance in the drive box from removing the hole.

Furthermore, a plurality of fixing holes are formed in the placing plate, and fixing bolts are matched in the fixing holes.

Further, a handle is arranged on the material box.

Above-mentioned scheme makes things convenient for the staff to get and puts the magazine.

Compared with the prior art, the beneficial effects of the utility model are that:

a plurality of magazine in this device adds the internal system flow of frying that cooks according to the stir-fry order of eating the material and culinary art temperature in proper order under drive assembly and the accurate cooperation of material loading subassembly, the intelligent machine of cooking among the prior art just needs the manual work to pour the edible material of culinary art into interior pot before stir-fry, thereby the process of directly mixing to stew cooked fry can not control the culinary art temperature of various edible materials and lead to the not good enough problem of look fragrant smell of whole cooked food like this, the device degree of automation is high, it is good to connect the cooperation effect in the material loading subassembly drives the magazine motion process simultaneously.

Drawings

Fig. 1 is a three-dimensional perspective view of the present invention;

fig. 2 is a top view of the present invention;

FIG. 3 is a schematic view of a mating groove;

FIG. 4 is a schematic view of the card installation;

FIG. 5 is a schematic view of a telescopic steel ball;

FIG. 6 is a schematic view of the interior of the drive housing;

FIG. 7 is an enlarged view of a portion of FIG. 1 labeled A;

FIG. 8 is a schematic view of a positioning slot;

FIG. 9 is a schematic view of a positioning block;

FIG. 10 is a schematic view of the moving hole engaging with the connecting rod;

FIG. 11 is a schematic view of a fixing hole;

reference numerals:

1. a control cabinet; 101. a cover plate; 102. moving the hole; 11. a drive box; 111. a drive motor; 112. a driving wheel; 113. a synchronous belt; 114. a driven wheel; 115. a connecting plate; 116. a sliding plate; 117. a slide rail; 118. a connecting plate; 119. fixing the bolt; 12. a motor case; 13. a fixed seat; 14. a rotating shaft; 15. a feeding seat; 151. a steel ball is stretched; 16. feeding a material block; 161. a bump; 162. positioning blocks; 17. placing the plate; 171. a fixing hole; 18. a placement groove; 19. a photosensor; 20. a connecting roller; 2. a magazine; 21. a chuck; 211. a fixing plate; 212. clamping a plate; 213. a mating groove; 22. a handle; 23. an auxiliary positioning plate; 24. positioning a groove; 25. and a limiting hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without making creative efforts belong to the protection scope of the present invention.

As shown in fig. 1 to 11, an intelligent cooker feeding device comprises a control cabinet 1 and a material box 2, wherein a driving box 11 and a feeding assembly for turning over and discharging the material box 2 are arranged on the control cabinet 1, a driving assembly for driving the material box 2 to reciprocate is arranged in the driving box 11, the driving assembly is connected with a placing plate 17, a plurality of placing grooves 18 are arranged on the placing plate 17, the material boxes 2 are respectively placed in the placing grooves 18, so that the material box 2 can be conveniently taken and placed by a worker, the scheme is further refined, and a handle 22 is arranged on the material box 2;

the feeding assembly comprises a motor box 12, a fixed seat 13, a rotating shaft 14, a feeding seat 15 and a feeding block 16, the motor box 12 and the fixed seat 13 are arranged on the control cabinet 1, a rotating motor is arranged in the motor box 12, the rotating motor is not shown in the figure, the rotating motor is connected with the rotating shaft 14, one end of the rotating shaft 14 is rotatably connected with the fixed seat 13 through a bearing, the feeding seat 15 is arranged on the rotating shaft 14, the feeding block 16 is arranged on the feeding seat 15, and the feeding block 16 is matched with a chuck 21 arranged on the material box 2; first, the feeding block 16 can be driven by the rotating motor to perform deflection motion to one side of one of the material boxes 2 provided with the chuck 21, the placing plate 17 is driven by the driving assembly to move, at the moment, the chuck 21 of one of the material boxes 2 can move to the position of the feeding block 16, and then the feeding block 16 can enter the chuck 21 from the side surface of the chuck 21 and realize fixation between the feeding block and the chuck 21, so that the subsequent feeding block 16 can drive the material box 2 to perform turnover unloading process.

The utility model discloses a work flow:

firstly, a plurality of material boxes 2 in which food materials are placed in advance are sequentially placed in a plurality of placing grooves 18, then a driving assembly starts to work to drive the placing plate 17 to do directional reciprocating motion along a fixed track, a rotating motor starts to work while the driving assembly drives the placing plate 17 to move, the rotating motor can drive a rotating shaft 14 to move, the rotating shaft 14 drives a feeding seat 15 to move, the feeding seat 15 moves to further drive a feeding block 16 to be matched with a chuck 21 arranged on the material boxes 2 so as to realize the fixation of the feeding block and the material box, and the subsequent material boxes 2 are convenient to separate from the placing grooves 18 to perform overturning and feeding processes along with the feeding block 16. What needs to be illustrated, one side of a control cabinet 1 is provided with a pot body which can also overturn under the driving of a driving device, and the driving device comprises a mounting rack, an overturning motor, a connecting roller and a pot body, this device cooperatees with the pot body and eats material loading and accomplishes subsequent stir-fry flow in order to realize automatic batching, when the pot body overturns to switch board 1 one side under drive arrangement's effect this moment magazine 2 just in time breaks away from standing groove 18 discharge gate down and is in pot body feed inlet top under the effect of material loading subassembly, the edible material in magazine 2 can enter into the pot body immediately and carry out subsequent stir-fry flow, a plurality of magazine 2 is under drive assembly and material loading subassembly's accurate cooperation according to the stir-fry order of eating the material and the culinary art is gone into in proper order cooks the stir-fry flow in the pot body according to the culinary art, just need the manual work to pour the edible material of culinary art into whole pot before stir-fry, and close the pot cover, thereby the flow of directly mixing to stew and fry can not control the culinary art temperature of various edible materials and lead to the not good enough problem of look fragrant smell of whole cooked food.

In order to ensure that the feeding assembly is accurately matched with the driving assembly to complete the matching connection of the feeding block 16 and the chuck 21, as shown in fig. 1 and 7, a connecting roller 20 is arranged on the rotating shaft 14, a photoelectric sensor 19 is arranged on the connecting roller 20, and the principle of the photoelectric sensor 19 in the prior art is not described; by means of the photoelectric sensor 19, it is possible to detect the movement of the cartridge 2 and thus to drive the loading block 16 to turn over in time on the cartridge 2 on the side on which the chuck 21 is mounted for the fitting loading.

In order to realize the directional reciprocating motion of the plurality of material boxes 2 along the fixed track, the scheme is further refined, as shown in fig. 4, 6 and 10, the driving assembly comprises a driving motor 111, a driving wheel 112, a synchronous belt 113, a driven wheel 114, a connecting plate 115, a sliding plate 116, a sliding rail 117, a connecting rod 118, a fixed bolt 119 and a moving hole 102, the driving wheel 112 and the driven wheel 114 are connected in the driving box 11 in a rotating manner, the driving wheel 112 is connected with the driving motor 111, the driving wheel 112 and the driven wheel 114 are driven by the synchronous belt 113, the connecting plate 115 is arranged on the synchronous belt 113, the sliding plate 116 is connected to two ends of the connecting plate 115 respectively, the sliding plate 116 is in sliding fit with the sliding rail 117 arranged in the driving box 11, the connecting rod 118 is arranged on the sliding plate 116, the moving holes 102 are symmetrically arranged on the driving box 11, the connecting rod 118 passes through the moving hole 102 and is matched with the moving hole 102, the connecting rod 118 is provided with the plurality of fixed bolts 119, and the fixed bolt 119 is connected with the placing plate 17; the driving motor 111 drives the driving wheel 112 to move, the driving wheel 112 and the driven wheel 114 are driven by a synchronous belt 113, the synchronous belt 113 is connected with sliding plates 116 from two sides through connecting plates 115 respectively, the sliding plates 116 move directionally under the action of sliding rails 117, then connecting rods 118 are mounted on the sliding plates 116, the connecting rods 118 can penetrate through the moving holes 102 and move in the moving holes 102, the driving assembly is connected with the placing plate 17 through a plurality of fixing bolts 119 arranged on the connecting rods 118, and therefore the movement of a plurality of material boxes 2 on the placing plate 17 can be achieved through the movement of the driving assembly, and the automatic adding and feeding process of different food materials is completed successively; in order to realize the connection between the fixing bolts 119 and the placing plate 17, the scheme is further refined, the placing plate 17 is provided with a plurality of fixing holes 171, and the fixing bolts 119 are matched in the fixing holes 171.

Further, the chuck 21 comprises a fixing plate 211 and clamping plates 212, the fixing plate 211 is arranged on the magazine 2, the clamping plates 212 are L-shaped and symmetrically arranged with respect to the fixing plate 211, and the feeding block 16 is fitted between the two clamping plates 212; the upper panel 16 first enters between the two L-shaped clamps 212 and then defines the position of the two.

The first embodiment is as follows:

in order to realize accurate position limitation between the feeding block 16 and the chuck 21 and avoid error generation after the two are matched and connected to influence the discharging effect, the scheme is refined, as shown in fig. 1, 3 and 4, matching grooves 213 are symmetrically arranged on the clamping plate 212, telescopic steel balls 151 are symmetrically arranged on the feeding seat 15, one end of each telescopic steel ball 151 is connected with a spring, the spring is arranged inside the feeding seat 15, and the telescopic steel balls 151 are matched with the matching grooves 213; after material loading block 16 got into from one side of cardboard 212, cardboard 212 can compress flexible steel ball 151 this moment, material loading block 16 reached the central point of cardboard 212 promptly and accomplished both fixed after flexible steel ball 151 arrived cooperation groove 213 position this moment, flexible steel ball 151 can resume deformation under the effect of spring and accomplish the position with cooperation groove 213 center contact and prescribe a limit to, when material loading block 16 need break away from cardboard 212, then material box 2 continued motion cardboard 212 can compress flexible steel ball 151 again and accomplish material loading block 16 and chuck 21 and break away from.

Example two:

in the first embodiment, when the loading block 16 enters the chuck 21 for position limitation, the fixing effect is good, but when the loading block 16 enters the chuck 21 or is separated from the chuck 21, the loading block is slightly hard, as shown in fig. 1, fig. 8 and fig. 9, the utility model discloses be provided with the auxiliary positioning plate 23 on the fixing plate 211, the auxiliary positioning plate 23 is located between two clamping plates 212, the limiting holes 25 are symmetrically arranged on the clamping plates 212, the positioning groove 24 is arranged on the auxiliary positioning plate 23, the loading block 16 is provided with the projection 161 and the positioning blocks 162, the projection 161 is matched with the limiting holes 25, and the positioning groove 24 is matched with the positioning blocks 162; at first, when the feeding block 16 enters from one side of the chuck 21, the positioning block 162 is not in contact with the positioning groove 24, the bump 161 arranged on the feeding block 16 is positioned in the limiting hole 25 after the feeding block 16 moves, meanwhile, the positioning block 162 is matched with the positioning groove 24 to realize the positioning between the feeding block 16 and the chuck 21, the position shaking of the feeding block 16 and the positioning block 16 is avoided in the overturning and discharging process, the separation of the feeding block and the chuck is convenient, the bump 161 is not matched with the limiting hole 25 after the feeding block 2 is placed in the playback groove 18 again after the discharging is finished, the positioning block 162 is not matched with the positioning groove 24, and the separation is simple.

In order to avoid the problem that the food materials overflow to the outside of the material box 2 and inadvertently fall into the driving box 11 from the moving hole 102 to cause inconvenience in subsequent cleaning in the process of supplementing the food materials into the material box 2, the scheme is further refined, as shown in fig. 10 and 11, a cover plate 101 is further arranged on the driving box 11, and the cover plate 101 is positioned above the moving hole 102 and is arranged at an interval with the placing plate 17.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention and not to limit it; although the present invention has been described in detail with reference to preferred embodiments, it should be understood by those skilled in the art that: the invention can be modified or equivalent substituted for some technical features; without departing from the spirit of the technical solution of the present invention, the present invention should be covered by the technical solution of the present invention.

Claims (10)

1. The utility model provides an intelligence fried dish machine loading attachment, a serial communication port, including switch board (1) and magazine (2), be provided with drive case (11) on switch board (1) and be used for overturning the material loading subassembly of unloading to magazine (2), be provided with in drive case (11) and be used for driving magazine (2) and make reciprocating motion's drive assembly, drive assembly is connected with places board (17), is provided with a plurality of standing groove (18) on placing board (17), has placed magazine (2) in standing groove (18) respectively.

2. The intelligent cooking machine feeding device as claimed in claim 1, wherein the feeding assembly comprises a motor box (12), a fixed seat (13), a rotating shaft (14), a feeding seat (15) and a feeding block (16), the motor box (12) and the fixed seat (13) are arranged on the control cabinet (1), the rotating motor is arranged in the motor box (12) and is connected with the rotating shaft (14), one end of the rotating shaft (14) is rotatably connected with the fixed seat (13), the feeding seat (15) is arranged on the rotating shaft (14), the feeding block (16) is arranged on the feeding seat (15), and the feeding block (16) is matched with a chuck (21) arranged on the material box (2).

3. The intelligent cooking machine feeding device as claimed in claim 2, wherein the rotating shaft (14) is provided with a connecting roller (20), and the connecting roller (20) is provided with a photoelectric sensor (19).

4. The intelligent cooker feeding device as claimed in claim 1, wherein the driving assembly comprises a driving motor (111), a driving wheel (112), a synchronous belt (113), a driven wheel (114), a connecting plate (115), a sliding plate (116), a sliding rail (117), a connecting rod (118), a fixing bolt (119) and a moving hole (102), the driving wheel (112) and the driven wheel (114) are connected in the driving box (11) in a rotating mode, the driving wheel (112) is connected with the driving motor (111), the driving wheel (112) and the driven wheel (114) are driven through the synchronous belt (113), the connecting plate (115) is arranged on the synchronous belt (113), the sliding plate (116) is connected to each of two ends of the connecting plate (115), the sliding plate (116) is in sliding fit with the sliding rail (117) arranged inside the driving box (11), the connecting rod (118) is arranged on the sliding plate (116), the moving hole (102) is symmetrically arranged on the driving box (11), the connecting rod (118) penetrates through the moving hole (102), the connecting rod (118) is provided with a plurality of fixing bolts (119), and the fixing bolt (119) is connected with a placing plate (17).

5. The intelligent cooking machine feeding device as claimed in claim 2, wherein the chuck (21) comprises a fixing plate (211) and clamping plates (212), the fixing plate (211) is arranged on the material box (2), the clamping plates (212) are L-shaped and are symmetrically arranged relative to the fixing plate (211), and a feeding block (16) is matched between the two clamping plates (212).

6. The intelligent cooking machine feeding device as claimed in claim 5, wherein the clamping plate (212) is symmetrically provided with matching grooves (213), the feeding seat (15) is symmetrically provided with telescopic steel balls (151), one end of each telescopic steel ball (151) is connected with a spring, the springs are arranged inside the feeding seat (15), and the telescopic steel balls (151) are matched with the matching grooves (213).

7. The intelligent cooking machine feeding device as claimed in claim 5, wherein an auxiliary positioning plate (23) is arranged on the fixing plate (211), the auxiliary positioning plate (23) is positioned between the two clamping plates (212), the clamping plates (212) are symmetrically provided with limiting holes (25), the auxiliary positioning plate (23) is provided with positioning grooves (24), the feeding block (16) is provided with a projection (161) and a plurality of positioning blocks (162), the projection (161) is matched with the limiting holes (25), and the positioning grooves (24) are matched with the positioning blocks (162).

8. The intelligent cooking machine feeding device as claimed in claim 4, wherein a cover plate (101) is further arranged on the driving box (11), and the cover plate (101) is arranged above the moving hole (102) and spaced from the placing plate (17).

9. The intelligent cooking machine feeding device as claimed in claim 4, wherein the placing plate (17) is provided with a plurality of fixing holes (171), and fixing bolts (119) are matched in the fixing holes (171).

10. The intelligent cooking machine feeding device as claimed in claim 1, wherein a handle (22) is arranged on the material box (2).

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