阅读说明：本技术 一种糕点自动生产系统及方法 (Automatic cake production system and method ) 是由 陈随奈 吕雪梅 周保燕 于 2021-09-02 设计创作，主要内容包括：本发明提供了一种糕点自动生产系统,其特征在于,包括：支架,进料单元,所述进料单元设于所述支架一侧；转接单元,所述转接单元设于所述进料单元一侧；传动单元,所述传动单元设于所述支架下方；以及成型单元,所述成型单元设于所述传动单元上方的一侧。通过将存油机构呈倾斜布置可确保在给面团供油的过程中,油液在重力的作用下自动的向下进给,防止存油机构内部的油液排放不彻底,当面团沿着进料管向下移动的过程中,面团带动球状的挠油机构滚动,使得存油机构内部的油液在挠油机构的带动下与面团混合,从而达到了面团在进料过程中能够自动的挠油,避免面团堵塞在进料管里,减少油液的浪费的效果。(The invention provides an automatic cake production system, which is characterized by comprising the following components: the feeding unit is arranged on one side of the bracket; the switching unit is arranged on one side of the feeding unit; the transmission unit is arranged below the bracket; and the forming unit is arranged on one side above the transmission unit. Can ensure at the in-process for the dough fuel feeding through being the slope with oil storage mechanism and arranging, fluid is automatic downfeed under the effect of gravity, prevent that the inside fluid of oil storage mechanism from discharging not thoroughly, in-process along inlet pipe downstream when the dough, the dough drives globular oily mechanism of scratching and rolls, make the inside fluid of oil storage mechanism mix with the dough under the drive of scratching oily mechanism, thereby reached the dough can be automatic scratching the oil at the feeding in-process, avoid the dough to block up in the inlet pipe, reduce the extravagant effect of fluid.)

1. An automatic cake production system, comprising:

a bracket (1) is arranged on the bracket,

the feeding unit (2), the feeding unit (2) is arranged on one side of the bracket (1);

the transfer unit (3), the transfer unit (3) is arranged on one side of the feeding unit (2);

the stuffing wrapping unit (4) is arranged in the bracket (1) and communicated with the output end of the feeding unit (2);

the transmission unit (5), the said transmission unit (5) locates below the said support (1); and

the forming unit (6), the forming unit (6) is arranged on one side above the transmission unit (5);

the feed unit (2) comprises:

a feeding pipe (201), wherein the feeding pipe (201) is connected to the bottom of the switching unit (3);

the oil storage mechanism (202), the oil storage mechanism (202) is annularly arranged outside the feeding pipe (201);

and

the oil scratching mechanism (203), the oil scratching mechanism (203) is arranged inside the oil storage mechanism (202);

during operation, the dough slides the in-process downwards along feed unit (2) inner wall and drives and scratches oily mechanism (203) and rotate for scratching oily mechanism (203) and rotate and take out the inside fluid of trapped fuel mechanism (202) and contact with the dough.

2. An automatic pastry production system as claimed in claim 1, characterized in that said stuffing unit (4) comprises:

a support mechanism (401), the support mechanism (401) comprising a support frame (4011);

the power mechanism (402), the power mechanism (402) is connected to one side of the supporting mechanism (401); and

the top of the trigger mechanism (403) is provided with a power mechanism (402);

the reciprocating mechanism (404), the inner side of the reciprocating mechanism (404) is provided with a trigger mechanism (403);

the air transmission mechanism (405) is connected to the top of the trigger mechanism (403); and

the processing mechanism (406), the processing mechanism (406) is connected to the bottom of the trigger mechanism (403);

when the power mechanism (402) moves downwards, the air transmission mechanism (405) moves, so that the air transmission mechanism (405) performs air suction on the interior of the processing mechanism (406).

3. An automated pastry production system as claimed in claim 2, wherein the kinematic mechanism (402) comprises:

the power source (4021) is connected to the top surface of the support frame (4011), and the power source (4021) is connected with the storage bin (4022) through the support (1); a pushing rod (40221) is arranged in the storage bin (4022), and a threaded sheet is arranged on the surface of the pushing rod (40221);

the movable hollow rod (4023) is connected to the bottom end of the storage bin (4022).

4. An automatic pastry production system as claimed in claim 2, characterized in that the bottom of the movable hollow rod (4023) is connected with a digging head (40231), the outer diameter of the digging head (40231) is the same as that of the movable hollow rod (4023), the bottom of the digging head (40231) is movably connected with a semicircular head (40232), and the semicircular head (40232) is movably connected with the storage bin (40233) through the digging head (40231);

a limiting plate (4024) is arranged between the digging head (40231) and the support (1), elastic columns (4025) are uniformly distributed on the top of the limiting plate (4024), and the limiting plate (4024) is connected with the triggering mechanism (403) through a connecting thin column (4026).

5. An automatic pastry production system as claimed in claim 2, characterized in that said triggering mechanism (403) comprises: the sleeve (4031) is arranged at the bottom end of the limiting plate (4024), the sleeve (4031) comprises an upper part and a lower part, and a hollow groove (40311) is formed in the middle of the sleeve (4031); a feed inlet (40312) is formed in one side of the sleeve (4031) at the bottom, the inner diameter of the sleeve (4031) is matched with the outer diameter of the movable hollow rod (4023), and a plurality of trigger curved rods (4032) are arranged on the upper portion and the lower portion of the outer side of the sleeve (4031);

transmission system (4033), transmission system (4033) are connected in the outside of sleeve pipe (4031), from top to bottom sleeve pipe (4031) is connected by transmission system (4033), the bottom of transmission system (4033) is connected with rotatory sleeve (40331), one side of rotatory sleeve (40331) is connected with closed plectane (403311), closed plectane (403311) is by inside and outside two parts joint.

6. An automatic pastry production system as claimed in claim 1, characterized in that said oil-retaining means (202) are arranged obliquely, and are provided with communication means (205) for conveying oil on both upper and lower sides thereof.

7. An automatic pastry production system as claimed in claim 1, wherein the oil scratching mechanism (203) is arranged in a spherical shape, and an adjusting spring (204) is connected to one side of the oil scratching mechanism (203).

8. An automatic pastry production system as claimed in claim 1, characterized in that said forming unit (6) comprises:

a frame (601) which is connected with the upper end of the bottom of the bracket (1) and is U-shaped,

the guide mechanism (602), the said guide mechanism (602) is connected to the middle of lower end of the said framework (601);

the forming die (603), the forming die (603) is inserted in the guide mechanism (602);

a fixed beam (604), wherein the fixed beam (604) is connected inside the forming die (603); and

and a molding plate (605) inserted into the molding die (603).

9. An automatic cake production system according to claim 5, wherein the forming mold (603) is divided into two sections, the lower section is cup-shaped, the upper section is cylindrical, a thrust mechanism (608) is arranged inside the upper section and outside the forming plate (605), a tension mechanism (607) is sleeved outside the upper section, and the upper end of the tension mechanism (607) is connected with the bottom end of the frame (601):

the forming plate (605) is arranged in a T shape, and the lower end of the forming plate (605) is provided with a plurality of bosses matched with holes at the upper end of the fixing beam (604);

the fixed beam (604) is disc-shaped, and a plurality of uniformly distributed holes are formed in the upper end of the fixed beam.

10. An automatic pastry production system as defined in claims 1 to 9, for use in a method for producing pastry, characterized by comprising the steps of;

firstly, kneading flour raw materials into dough, and then introducing the dough into a feeding unit (2) through a switching unit (3);

step two, starting a driving mechanism (207), wherein the driving mechanism (207) drives a pushing block (206) to reciprocate up and down along the feeding pipe (201), and dough entering the feeding unit (2) from the switching unit (3) is guided into the feeding pipe (201);

thirdly, the dough drives the oil scratching mechanism (203) to rotate by contacting with the oil scratching mechanism (203) on the inner wall of the feeding pipe (201) in the process of moving the dough downwards along the feeding pipe (201), and meanwhile, the oil scratching mechanism (203) is extruded outwards by the dough, so that the adjusting spring is compressed, and the oil is brought into contact with the dough by the oil scratching mechanism (203);

fourthly, the dough enters the stuffing wrapping unit (4) after passing through the feeding unit (2), at the moment, the power mechanism (402) adjusts the air transmission mechanism (405) by controlling the movable hollow rod (4023) so that the air transmission mechanism (405) extracts air in the processing mechanism (406), then the power source (4021) drives the push rod (40221) to rotate so that fruit materials in the storage bin (4022) are pushed into the digging head (40231), the digging head (40231) guides the fruit materials into the dough for compaction, and the dough is conveyed to the upper end of the padding mechanism (502) after the stuffing wrapping unit (4) is controlled to wrap the dough;

and step five, when the dough is conveyed to the lower end of the guide mechanism (602) by the padding mechanism (502) under the conveying action of the chain (501), the lifting rod (606) drives the forming die (603) to extrude and form the dough at the upper end of the padding mechanism (502).

Technical Field

The invention relates to a cake production technology, in particular to an automatic cake production system and method.

Background

The cake forming machine is suitable for printing various cakes, particularly cakes with harder or softer fillings, the computer-controlled full-automatic synthetic encrusting of the cake forming machine is light and multipurpose, and can be made into various geometric shapes such as spheres, rod-shaped triangles and the like, so the cake forming machine becomes indispensable equipment for cake manufacturers.

Chinese patent CN 108353965 a discloses a cake make-up machine, including frame, carousel and power device, power device is connected with the carousel and locates in the lump on the frame, carousel circumference is equipped with a plurality of saucer mould, the frame is equipped with in proper order in the carousel periphery and gets the cup device, cut device, forming device, unloader, controlling means and at least one detection device, controlling means and power device, get the cup device, cut device, forming device, unloader and detection device and be connected and control its action. The cake forming machine has the characteristics of intelligence, accuracy, safety and wide applicability.

However, in the technical scheme, the mould for processing the patterns of the cakes is fixedly installed, when the patterns on the upper parts of the cakes are processed by the mould, the cake raw materials can be stuck on the inner surface of the mould in the process of pressing and forming the rising of the mould, and the cake raw materials cannot be automatically cleaned, so that the later cleaning process is complicated, and the processing efficiency is influenced.

Chinese patent CN112772690a2 discloses an automatic cake processing device, comprising: frame supporting mechanism, transport mechanism, cake die pressing mechanism, oven mechanism, frame supporting mechanism includes: a box frame, a support and a cake tray placing part; the lower end face of the box frame is fixedly connected with the upper end face of the support; the cake tray placing part is fixedly arranged in the box frame; the cake tray placing part realizes the storage and the transportation of the cake trays; the carrying mechanism is fixedly arranged on the upper end surface of the box frame; the cake die pressing mechanism is fixedly arranged on the upper end surface of the box frame; the cake die pressing mechanism realizes film pressing on cakes; the oven mechanism is fixedly arranged in the oven frame; the oven mechanism realizes baking of cakes, the servo motor drives the long lead screw, so that the lead screw block moves up and down, a plurality of cake counting discs can be placed on the square plate, and the cake counting discs can be conveniently conveyed by the conveying mechanism; the handle on the square plate is pulled, so that the square plate slides outwards, and cake dishes needing to be processed are greatly convenient to place.

However, in the technical scheme, the oil can not be automatically and continuously scratched in the cake dough feeding process, so that the wet dough is easily adhered to the inner wall of the feeding pipe, the result of blockage of the dough feeding pipe is generated, and in addition, the existing dough can not be automatically stopped in the oil scratching process, so that the waste of a large amount of oil liquid is generated in the dough feeding process.

Chinese patent CN 111066838A discloses cake continuous production equipment, which comprises a dough extruding device, a conveying device, a concave pressing device, a stuffing discharging device, a stuffing wrapping device and a kneading device, wherein the dough extruding device comprises a conveying component and a stuffing discharging component, the conveying device comprises a conveying component a and a bearing component, the concave pressing device comprises a conveying component b, a concave pressing component and a control component a, the stuffing wrapping device comprises a moving component and a limiting component, and the kneading device comprises a conveying component c, a kneading component and a control component b;

however, in the process of indenting the dough, the dough cannot be uniformly distributed in the die, so that the stuffing and the facing of the finished cake are not uniformly distributed, and the taste of the cake is affected.

Chinese patent CN 106689252B discloses a cake folding device, specifically belongs to a cake folding device, and comprises a frame, a cake mold, and a horizontal driving mechanism, wherein the horizontal driving mechanism comprises a first motor, a first coupler, a horizontal screw and a horizontal screw connecting piece; the first motor is connected with the horizontal screw through a first coupler, two sections of threads with opposite rotation directions are arranged on the horizontal screw, the horizontal screw connecting pieces are arranged on the two sections of threads, through holes are formed in the horizontal screw connecting pieces, the guide cross rods penetrate through the through holes to form a sliding guide structure, and a semi-cylindrical cake furling sleeve is arranged on each horizontal screw connecting piece; the cake mould is arranged right below the two cake furling sleeves;

however, in the folding process, air is wrapped in the shell fabric, so that the air in the dough is heated and expanded in the subsequent baking process of the dough containing material, the expanded air is extruded to break the crust of the cake, and meanwhile, in the closing and folding process of the cake dough, the phenomenon of closing wrinkles exists, and if the treatment of closing wrinkles is not smooth, the dough is expanded and cracked in the baking process.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an automatic cake production system and method, wherein the extrusion molding die is movably arranged, so that the die is prevented from being adhered to cake raw materials in the rising process, the cleaning is convenient, the feeding process of cake dough is further optimized, the dough can be automatically subjected to oil scratching in the feeding process, the dough is prevented from being blocked in a feeding pipe, and the waste of oil is reduced.

In order to achieve the purpose, the invention provides the following technical scheme:

an automatic cake production system, comprising:

a support frame is arranged on the base plate,

the feeding unit is arranged on one side of the bracket;

the switching unit is arranged on one side of the feeding unit;

the stuffing wrapping unit is arranged in the bracket and is communicated with the output end of the feeding unit;

the transmission unit is arranged below the bracket; and

the forming unit is arranged on one side above the transmission unit;

the feed unit includes:

the feeding pipe is connected to the bottom of the switching unit;

the oil storage mechanism is annularly arranged outside the feeding pipe;

and

the oil scratching mechanism is arranged in the oil storage mechanism;

during operation, the dough drives the oil scratching mechanism to rotate along the downward sliding process of the inner wall of the feeding unit, so that the oil scratching mechanism rotates to bring oil in the oil storing mechanism out of contact with the dough.

As an improvement, the stuffing wrapping unit comprises:

a support mechanism comprising a support frame;

the power mechanism is connected to one side of the supporting mechanism; and

the top of the trigger mechanism is provided with a power mechanism;

the inner side of the reciprocating mechanism is provided with a trigger mechanism;

the gas transmission mechanism is connected to the top of the trigger mechanism; and

the processing mechanism is connected to the bottom of the trigger mechanism;

when the power mechanism moves downwards, the air transmission mechanism can move, so that the air transmission mechanism can exhaust air from the interior of the processing mechanism.

Preferably, the power mechanism includes:

the power source is connected to the top surface of the support frame and is connected with the storage bin through a support; a push rod is arranged inside the storage bin, and a threaded sheet is arranged on the surface of the push rod;

the movable hollow rod is connected to the bottom end of the storage bin.

As an improvement, the bottom of the movable hollow rod is connected with a digging head, the outer diameter of the digging head is the same as that of the movable hollow rod, the bottom of the digging head is movably connected with a semicircular head, and the semicircular head is movably connected with the storage bin through the digging head;

a limiting plate is arranged between the digging head and the support, elastic columns are uniformly distributed at the top of the limiting plate, and the limiting plate is connected with a triggering mechanism through a connecting thin column.

As an improvement, the trigger mechanism comprises: the sleeve is arranged at the bottom end of the limiting plate and comprises an upper part and a lower part, and a hollow groove is formed in the middle of the sleeve; a feed inlet is formed in one side of the sleeve at the bottom, the inner diameter of the sleeve is matched with the outer diameter of the movable hollow rod, and a plurality of trigger bent rods are arranged at the upper part and the lower part of the outer side of the sleeve;

the transmission system is connected in the sheathed tube outside, from top to bottom the sleeve pipe is connected by transmission system, transmission system's bottom is connected with rotatory sleeve, one side of rotatory sleeve is connected with closed plectane, closed plectane is by inside and outside two parts joint.

As an improvement, the oil storage mechanism is obliquely arranged, and communicating mechanisms for transmitting oil are inserted into the upper side and the lower side of the oil storage mechanism.

As the improvement, the oil scratching mechanism is spherical, and one side of the oil scratching mechanism is connected with an adjusting spring.

As an improvement, the molding unit includes:

a frame which is connected with the upper end of the bottom of the bracket and is U-shaped,

the guide mechanism is connected to the middle of the lower end of the rack;

the forming die is inserted into the guide mechanism;

the fixed beam is connected inside the forming die; and

and the forming plate is inserted in the forming die.

As the improvement, forming die divide into two sections, and the hypomere sets up to the cup, and the upper segment sets up to cylindric, and the upper segment is inside and be located the profiled sheeting outside and be equipped with thrust mechanism, and the tensile mechanism has been cup jointed to the upper segment outside, and the tensile mechanism upper end is connected with the frame bottom:

the forming plate is arranged in a T shape, and the lower end of the forming plate is provided with a plurality of bosses matched with the holes at the upper end of the fixed beam;

the fixed beam is disc-shaped, and a plurality of uniformly distributed holes are formed in the upper end of the fixed beam.

In addition, in order to achieve the above object, the present invention further provides a method for producing pastries by using the automatic pastry production system described in the above technical solution, which is characterized by comprising the following steps:

firstly, kneading flour raw materials into dough, and then guiding the dough into a feeding unit through a switching unit;

step two, starting a driving mechanism, driving a pushing block to do up-and-down reciprocating motion along a feeding pipe by the driving mechanism, and guiding the dough entering the feeding unit from the switching unit into the feeding pipe;

thirdly, the dough drives the oil scratching mechanism to rotate through contact with the oil scratching mechanism on the inner wall of the feeding pipe in the downward moving process of the dough along the feeding pipe, and meanwhile, the oil scratching mechanism is extruded outwards by the dough, so that the adjusting spring is compressed, and the oil is brought into contact with the dough by the oil scratching mechanism;

step four, the dough enters the stuffing wrapping unit through the feeding unit, at the moment, the power mechanism adjusts the air transmission mechanism by controlling the movable hollow rod, so that the air transmission mechanism extracts air in the processing mechanism, then the power source drives the push rod to rotate, so that the fruit materials in the storage bin are pushed to the inside of the digging head, the digging head guides the fruit materials into the dough for compaction, and the dough is transmitted to the upper end of the padding mechanism after the stuffing wrapping unit is controlled to wrap the dough;

and step five, when the padding mechanism conveys the dough to the lower end of the guide mechanism under the conveying action of the chain, the lifting rod drives the forming die to extrude and form the dough at the upper end of the padding mechanism.

The invention has the beneficial effects that:

(1) according to the invention, after the dough enters the feeding unit, the oil scratching mechanism in the oil storage mechanism is extruded to enable the oil to flow out, so that the dough in the falling process is scratched automatically and uniformly, and the blockage of the dough in the feeding pipe and the demoulding convenience during the dough forming are avoided.

(2) According to the invention, the oil storage mechanism which is obliquely arranged is matched with the oil scratching mechanism which is elastically arranged, so that the oil scratching is carried out on the dough as required, and the waste of oil is reduced.

(3) According to the cake forming device, the boss at the lower end of the forming plate moves downwards along the fixing beam to form dough in an extrusion mode, then the forming plate moves upwards, the dough adhered to the surface of the forming plate is separated under the action of the fixing beam, the phenomenon that a mold is adhered to cake raw materials in the lifting process is avoided, and the cake forming device is convenient to clean.

(4) According to the invention, the flexible strip moves downwards to enable the wane to press the air source unit, the air source unit deforms to pump air into the blowing bin, the extruded air is transmitted into the reciprocating mechanism by the air pipe, when the movable hollow rod moves upwards, the swinging direction of the wane driven by the flexible strip is opposite to that of the movable hollow rod when the movable hollow rod moves downwards, so that the air source unit is lifted and pumped, the blowing bin pumps air into the reciprocating mechanism through the air pipe, and therefore, the interference of air is reduced when dough is kneaded.

(5) According to the invention, fruit materials in the storage bin are pushed into the inner part of the pitting head, when the pitting head moves downwards on the movable hollow rod to press dough in the closed half mould, the external program can control the semicircular head to extend out of the inner part of the storage bin, so that the pitting head can conveniently compact and pitt the dough, and when the pitting is finished, the semicircular head at the bottom of the movable hollow rod can be contracted into the inner part of the storage bin, so that the pitting head can be timely filled after the pitting.

(6) When the rotary sleeve drives the closing circular plate to move outwards, the linkage unit drives the driven column to do synchronous rotary motion, so that the driven column drives the swing unit to impact and push the displacement column to move in the displacement groove, and the displacement column drives the half mold at the bottom of the displacement column to close, so that the feed port can conveniently transmit dough to the closed mold.

In conclusion, the extrusion forming die has the advantages that the extrusion forming die is movably arranged, the die is prevented from being adhered to cake raw materials in the rising process, cleaning is convenient, the feeding process of cake dough is further optimized, automatic oil scratching of the dough in the feeding process is ensured, the dough is prevented from being blocked in the feeding pipe, waste of oil is reduced, and the like.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a front view of a stuffing unit of the present invention;

FIG. 3 is a diagram showing the connection between the storage compartment and the movable hollow rod according to the present invention;

FIG. 4 is an internal structural view of the bushing of the present invention;

FIG. 5 is a diagram of the connection of the sleeve to the transmission system of the present invention;

FIG. 6 is an enlarged view of the present invention at B in FIG. 2;

FIG. 7 is an enlarged view of the invention at A in FIG. 2;

FIG. 8 is a diagram of the connection between the crater head and the mold halves according to the present invention;

FIG. 9 is a view showing the connection between the digging head and the semi-circular head according to the present invention;

FIG. 10 is an overall structural view of a feed unit of the present invention;

FIG. 11 is a schematic diagram of the overall structure of the feeding unit and the transfer unit of the present invention;

FIG. 12 is an enlarged view of the invention at A in FIG. 11;

FIG. 13 is a view showing the connection between the driving unit and the forming unit according to the present invention;

FIG. 14 is a cross-sectional view of a molding unit of the present invention;

FIG. 15 is a view showing the connection between the mounting block and the surge bin according to the present invention;

fig. 16 is an enlarged view of the invention at D in fig. 15.

In the figure; 1. a support; 2. a feed unit; 201. a feed pipe; 202. an oil storage mechanism; 203. an oil scratching mechanism; 204. adjusting the spring; 205. a communication mechanism; 206. a push block; 207. a drive mechanism; 3. a transfer unit; 301. a material storage box; 302. a material transferring pipe; 303. a screw rod; 4. a stuffing wrapping unit; 401. a support mechanism; 4011. a support frame; 402. a power mechanism; 4021. a power source; 4022. a storage bin; 40221. a push rod; 4023. a movable hollow rod; 40231. a digging head 40232 and a semicircular head; 40233. a storage bin; 4024. a limiting plate; 4025. a bullet column; 4026. a thin column; 403. a trigger mechanism; 4031. a sleeve; 40311. a hollow groove; 40312. a feed inlet; 4032. a trigger curved lever; 4033. a transmission system; 40331. rotating the sleeve; 40332. rotating the rod; 4033. a linkage unit; 4034. a driven column; 4035. a swing unit; 4036. a displacement column; 4037. a displacement slot; 405. a gas transmission mechanism; 4051. a frame sleeving block; 4052. soft strips; 4053. a seesaw; 4054. an air source unit; 4055. a drumming bin; 4056. an air tube; 4061. a half mold; 403311, closed circular plate; 404. a reciprocating mechanism; 406. a processing mechanism; 5. a transmission unit; 501. a chain; 502. a padding mechanism; 503. a switching strip; 504. a drive motor; 6. a molding unit; 601. a frame; 602. a guide mechanism; 603. forming a mold; 604. a fixed beam; 605. forming a plate; 606. a lifting rod; 607. a tension mechanism; 608. a thrust mechanism.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Example one

As shown in fig. 1, an automatic pastry production system includes:

the support frame (1) is provided with a support frame,

the feeding unit 2 is arranged on one side of the bracket 1;

the switching unit 3 is arranged on one side of the feeding unit 2;

the transmission unit 5 is arranged below the bracket 1; and

the forming unit 6 is arranged on one side above the transmission unit 5;

the feed unit 2 includes:

a feeding pipe 201, wherein the feeding pipe 201 is connected to the bottom of the switching unit 3;

the oil storage mechanism 202 is annularly arranged outside the feeding pipe 201;

and

the oil scratching mechanism 203 is arranged in the oil storage mechanism 202;

during operation, the dough drives the oil scratching mechanism 203 to rotate in the process of sliding downwards along the inner wall of the feeding unit 2, so that the oil scratching mechanism 203 rotates to bring the oil liquid in the oil storing mechanism 202 out to contact the dough.

As a refinement, as shown in fig. 2-9, the stuffing unit 4 comprises:

a support mechanism 401, the support mechanism 401 comprising a support frame 4011;

the power mechanism 402 is connected to one side of the support mechanism 401; and

the top of the trigger mechanism 403 is provided with a power mechanism 402;

the reciprocating mechanism 404, the inner side of the reciprocating mechanism 404 is provided with a trigger mechanism 403;

the air transmission mechanism 405 is connected to the top of the trigger mechanism 403; and

a processing mechanism 406, wherein the processing mechanism 406 is connected to the bottom of the trigger mechanism 403;

when the power mechanism 402 moves downward, the gas transmission mechanism 405 moves, so that the gas transmission mechanism 405 evacuates the interior of the processing mechanism 406.

Preferably, the air transmission mechanism 405 includes a jacket block 4051, the jacket block 4051 is connected to the movable idle rod 4023 through a through hole opened in the middle, a soft strip 4052 is disposed on the outer side of the jacket block 4051, the soft strip 4052 is connected to an air source unit 4054 through a rocker 4053, the air source unit 4054 is connected to an air pipe 4056 through a blowing bin 4055, and the air source unit 4054 is preferably made of a rubber material.

Wherein, through fixing the set of frame piece 4051 to the surface of activity idle pole 4023, when activity idle pole 4023 moves down, can drive soft strip 4052 downstream, thereby make the rocker 4053 swing, and then make the rocker 4053 beat the pressure air supply unit 4054, make air supply unit 4054 warp and inflate to the inside of the storehouse of blowing 4055, extruded gas is transmitted to the reciprocating mechanism 404 inside by trachea 4056, and when activity idle pole 4023 moves up, soft strip 4052 drives the direction of swing of rocker 4053 and is opposite when activity idle pole 4023 moves down and swings, and then make air supply unit 4054 promote to bleed, make the storehouse of blowing 4055 bleed to the inside of reciprocating mechanism 404 through trachea 4056, and then be convenient for reciprocating mechanism 404 can make the inside air of processing mechanism 406 pumped, thereby make the dough when kneading, reduce the interference of air.

Preferably, the power mechanism 402 includes: the power source 4021 is connected to the top surface of the supporting frame 4011, and the power source 4021 is connected with the storage cabin 4022 through the bracket 1; a push rod 40221 is arranged in the storage cabin 4022, and a thread piece is arranged on the surface of the push rod 40221; a movable hollow rod 4023, and the movable hollow rod 4023 is connected to the bottom end of the storage cabin 4022. As an improvement, a digging head 40231 is connected to the bottom of the movable hollow rod 4023, the outer diameter of the digging head 40231 is the same as the outer diameter of the movable hollow rod 4023, a semicircular head 40232 is movably connected to the bottom of the digging head 40231, and the semicircular head 40232 is movably connected with a storage bin 40233 through the digging head 40231; a limiting plate 4024 is arranged between the digging head 40231 and the support 1, elastic columns 4025 are uniformly distributed on the top of the limiting plate 4024, and the limiting plate 4024 is connected with the triggering mechanism 403 through a connecting fine column 4026.

Wherein, it is rotatory to drive push rod 40221 through power supply 4021, and then make the inside fruit material of storage storehouse 4022 pushed to the inside of digging head 40231, and then when digging head 40231 moves down at movable empty pole 4023 and presses real-time to the inside dough of closed half mould 4061, outside program can control half round head 40232 and stretch out from the inside of collecting chamber 40233, thereby be convenient for dig head 40231 and carry out the compaction to the dough and dig the pit, when digging the pit after, half round head 40232 of movable empty pole 4023 bottom can contract into the inside of collecting chamber 40233, thereby be convenient for dig head 40231 and can in time pack after digging the pit.

As a modification, as shown in fig. 6, the trigger mechanism 403 includes: the sleeve 4031 is arranged at the bottom end of the limiting plate 4024, the sleeve 4031 comprises an upper part and a lower part, and a hollow groove 40311 is formed in the middle of the sleeve 4031; a feed inlet 40312 is formed in one side of the sleeve 4031 at the bottom, the inner diameter of the sleeve 4031 is matched with the outer diameter of the movable hollow rod 4023, and a plurality of trigger curved rods 4032 are arranged on the upper portion and the lower portion of the outer side of the sleeve 4031; a transmission system 4033, the transmission system 4033 is connected to the outer side of the sleeve 4031, the upper and lower sleeves 4031 are connected by the transmission system 4033, the bottom of the transmission system 4033 is connected with a rotating sleeve 40331, one side of the rotating sleeve 40331 is connected with a closed circular plate 403311, and the closed circular plate 403311 is clamped by an inner part and an outer part.

Preferably, the rotating rods 40332 are distributed on the bottom surface of the rotating sleeve 40331 along the height direction of the sleeve 4031;

the outer side of the rotating rod 40332 is connected with a driven column 4034 through a linkage unit 4033, the surface of the driven column 4034 is connected with a swinging unit 4035, one side of the driven column 4034 is provided with a displacement column 4036, the bottom of the displacement column 4036 is provided with a displacement groove 4037, the linkage unit 4033 is preferably in belt transmission, and the swinging unit 4035 is preferably in cam swinging.

When the movable idle rod 4023 moves downwards, the pitter 40231 presses the trigger curved bar 4032 in the sleeve 4031, so that the upper and lower trigger curved bars 4032 drive the rotating sleeve 40331 to rotate, the upper and lower trigger curved bars 4032 drive the rotating sleeve 40331 to rotate in the opposite direction, the rotating sleeve 40331 drives the closing circular plate 403311 to move outwards, the pitter 40231 can penetrate through the sleeve 4031, and a sealing ring on the outer side of the movable idle rod 4023 seals the sleeve 4031, so that the entry of external air during air suction is reduced; when the rotating sleeve 40331 drives the closing circular plate 403311 to move outwards, the linkage unit 4033 drives the driven column 4034 to perform synchronous rotating motion, so that the driven column 4034 drives the swinging unit 4035 to impact and push the displacement column 4036 to move inside the displacement groove 4037, the displacement column 4036 drives the half mold 4061 at the bottom of the displacement column 4036 to close, and the feeding port 40312 is convenient for conveying dough to the closed mold.

As a modification, the oil reservoir 202 is arranged obliquely, and a communicating mechanism 205 for transmitting oil is inserted into both upper and lower sides thereof.

Further, the oil scratching mechanism 203 is spherical, and one side of the oil scratching mechanism 203 is connected with an adjusting spring 204.

It should be noted that, the oil storage mechanism 202 is arranged obliquely, so that the oil liquid can be automatically fed downwards under the action of gravity in the process of supplying oil to the dough, incomplete discharge of the oil liquid in the oil storage mechanism 202 is prevented, and when the dough moves downwards along the feeding pipe 201, the dough drives the spherical oil scratching mechanism 203 to roll, so that the oil liquid in the oil storage mechanism 203 is driven by the oil scratching mechanism 203 to be mixed with the dough.

As a refinement, the transmission unit 5 comprises:

the chain 501 is connected to the bottom of the bracket 1; and

a padding mechanism 502, wherein the padding mechanism 502 is connected inside the chain 501;

the upper end of the padding mechanism 502 is disc-shaped.

It should be noted that the padding mechanism 502 is mutually matched with the forming die 603 in the working process, so that the dough at the upper end of the padding mechanism 502 is extruded and formed, and when working, the driving motor 504 drives the chain 501 to rotate through the switching strip 503, and the chain 501 drives the padding mechanism 502 to rotate, so that the padding mechanism 502 drives the dough to the forming unit 6 for alternate forming.

As a modification, as shown in fig. 14, the molding unit 6 includes:

a frame 601 which is connected with the upper end of the bottom of the bracket 1 and is U-shaped,

the guide mechanism 602, the guide mechanism 602 is connected to the middle of the lower end of the frame 601;

the forming die 603 is inserted into the guide mechanism 602;

the fixed beam 604 is connected inside the forming die 603;

and

and a molding plate 605 inserted into the molding die 603.

Further, the fixed beam 604 is disc-shaped, and a plurality of uniformly distributed holes are formed in the upper end of the fixed beam.

Furthermore, the forming plate 605 is provided with a T shape, and the lower end of the forming plate 605 is provided with a plurality of bosses matched with the holes at the upper end of the fixing beam 604.

The forming die 603 is divided into two sections, the lower section is cup-shaped, the upper section is cylindrical, a thrust mechanism 608 is arranged inside the upper section and outside the forming plate 605, a tension mechanism 607 is sleeved outside the upper section, and the upper end of the tension mechanism 607 is connected with the bottom end of the frame 601.

It should be noted that, when the chain 501 drives the dough to the position right below the forming mold 603 through the padding mechanism 502, the lifting rod 606 drives the forming plate 605 to move downward under the action of the driving member, so that the boss at the lower end of the forming plate 605 passes through the hole inside the fixing beam 604, meanwhile, the forming plate 605 presses the fixing beam 604 downward, the fixing beam 604 drives the forming mold 603 to move downward, the dough at the upper end of the padding mechanism 603 is extruded and formed, then the driving member drives the forming plate 605 to move upward through the lifting rod 606, so that the boss at the lower end of the forming plate 605 is separated from the hole inside the fixing beam 604, at this time, the pattern at the upper end of the cake is printed by the boss at the lower end of the forming plate 605, the dough adhered to the surface of the forming plate 605 is separated under the action of the fixing beam 604, and as the forming plate 605 further moves upward, the forming plate 605 drives the forming mold 603 to move upward, so that the forming mold 603 is separated from the padding mechanism 502, and finishing the processing of the pastry.

Preferably, the support 1 is internally provided with a stuffing wrapping unit 4, one side inside the stuffing wrapping unit 4 is connected with the bottom of the feeding pipe 201, and the lower end of the stuffing wrapping unit 4 is in butt joint with the transmission unit 5.

In this embodiment, the dough is brought to the lower side of the pushing block 206 by the rotating screw rod 303 inside the storage box 301, the pushing block 206 pushes the dough into the feeding unit 2, the oil storage mechanism 202 is obliquely arranged to ensure that in the process of supplying oil to the dough, oil is automatically fed downwards under the action of gravity, so that incomplete discharge of the oil inside the oil storage mechanism 202 is prevented, and when the dough moves downwards along the feeding pipe 201, the dough drives the spherical oil scratching mechanism 203 to roll, so that the oil inside the oil storage mechanism 203 is mixed with the dough under the driving of the oil scratching mechanism 203, thereby achieving the effects of automatically scratching oil during the feeding process of the dough, avoiding blockage of the dough in the feeding pipe, and reducing waste of the oil;

in addition, when the chain 501 drives the dough to the position right below the forming mold 603 through the padding mechanism 502, the lifting rod 606 drives the forming plate 605 to move downwards under the action of the driving piece, so that the boss at the lower end of the forming plate 605 passes through the hole inside the fixing beam 604, meanwhile, the forming plate 605 presses the fixing beam 604 downwards, the fixing beam 604 drives the forming mold 603 to move downwards, the dough at the upper end of the padding mechanism 603 is extruded and formed, then the driving piece drives the forming plate 605 to move upwards through the lifting rod 606, so that the boss at the lower end of the forming plate 605 is separated from the hole inside the fixing beam 604, at this time, the pattern at the upper end of the cake is printed by the boss at the lower end of the forming plate 605, the dough sticky on the surface of the forming plate 605 is separated under the action of the fixing beam 604, and as the forming plate 605 further moves upwards, the forming plate 605 drives the forming mold 603 to move upwards, so that the forming mold 603 is separated from the padding mechanism 502, the cake processing is accomplished to reached through setting extrusion's mould to movable, avoided the mould to rise the in-process and glue glutinous with the cake raw materials, the effect of the clearance of being convenient for.

Example two

In order to adopt the method for producing the cakes by using the automatic cake production system in the technical scheme of the embodiment, the method comprises the following steps,

firstly, kneading flour raw materials into dough, and then introducing the dough into a feeding unit 2 through a switching unit 3;

step two, starting the driving mechanism 207, wherein the driving mechanism 207 drives the pushing block 206 to reciprocate up and down along the feeding pipe 201, and the dough entering the feeding unit 2 from the switching unit 3 is guided into the feeding pipe 201;

thirdly, in the process that the dough moves downwards along the feeding pipe 201, the dough is contacted with the oil scratching mechanism 203 on the inner wall of the feeding pipe 201 to drive the oil scratching mechanism 203 to rotate, meanwhile, the oil scratching mechanism 203 is extruded outwards by the dough, so that the adjusting spring is compressed, and the oil is brought into contact with the dough by the oil scratching mechanism 203;

step four, the dough passes through the feeding unit 2 and then enters the stuffing wrapping unit 4, at the moment, the power mechanism 402 adjusts the air transmission mechanism 405 by controlling the movable hollow rod 4023, so that the air transmission mechanism 405 extracts air in the processing mechanism 406, then the power source 4021 drives the push rod 40221 to rotate, so that the fruit materials in the storage cabin 4022 are pushed into the digging head 40231, the digging head 40231 guides the fruit materials into the dough for compaction, and the stuffing wrapping unit 4 is controlled to wrap the dough and then convey the dough to the upper end of the padding mechanism 502;

step five, when the dough is conveyed to the lower end of the guide mechanism 602 by the padding mechanism 502 under the conveying action of the chain 501, the lifting rod 606 drives the forming die 603 to extrude and form the dough at the upper end of the padding mechanism 502.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.