阅读说明：本技术 一种面条加工工艺 (Noodle processing technology ) 是由 彭光明 于 2021-08-19 设计创作，主要内容包括：本发明涉及食品加工领域,更具体的说是一种面条加工工艺,本发明能够加工出提高儿童食用兴趣的夹心面条,一种面条加工工艺,包括以下步骤：步骤一：将面粉、淀粉、盐、增筋剂、水按照比例充分混合得到混合物；步骤二：对混合物进行和面加工制成面团；步骤三：将面团加入压面装置中进行压片步骤四：将片状的面切成条状制成面条,所述的步骤二中的压面装置包括压制台、压面滚Ⅰ、连接架和压面滚Ⅱ,压制台为一个倾斜斜面,连接架固定连接在压制台上,两个压面滚Ⅰ分别转动连接在压制台两端,两个压面滚Ⅱ分别转动连接在连接架上。(The invention relates to the field of food processing, in particular to a noodle processing technology, which can be used for processing sandwich noodles capable of improving the eating interest of children, and comprises the following steps: the method comprises the following steps: fully mixing flour, starch, salt, a gluten fortifier and water according to a proportion to obtain a mixture; step two: kneading the mixture to make dough; step three: adding the dough into a dough pressing device for tabletting, and performing a fourth tabletting step: the noodle making device comprises a pressing table, a noodle pressing roller I, a connecting frame and a noodle pressing roller II, wherein the pressing table is an inclined plane, the connecting frame is fixedly connected to the pressing table, the two noodle pressing rollers I are respectively rotatably connected to two ends of the pressing table, and the two noodle pressing rollers II are respectively rotatably connected to the connecting frame.)

1. A noodle processing technology is characterized in that: the process comprises the following steps:

the method comprises the following steps: fully mixing flour, starch, salt, a gluten fortifier and water according to a proportion to obtain a mixture;

step two: kneading the mixture to make dough;

step three: adding the dough into a dough pressing device for tabletting;

step four: cutting the sheet-shaped noodle into strips, and making into noodles.

2. A noodle processing process according to claim 1, characterized in that: the pressing device in the second step comprises a pressing table (101), a pressing roller I (102), a connecting frame (201) and a pressing roller II (202), the pressing table (101) is an inclined slope, the connecting frame (201) is fixedly connected to the pressing table (101), the two pressing rollers I (102) are respectively connected to two ends of the pressing table (101) in a rotating mode, and the two pressing rollers II (202) are connected to the connecting frame (201) in a rotating mode.

3. A noodle processing process according to claim 2, characterized in that: the device also comprises an arc-shaped slideway (203), a groove pressing part I (303), a groove pressing part II (304), a packing part I (401), a transverse sliding groove (501), a connecting part (502), a packing part II (701) and a sliding part (705), a plurality of arc slide (203) all can dismantle the connection on link (201) through the screw, pack portion II (701) and be equipped with two, each packs portion II (701) below and all is equipped with two arc slide (203), pack portion I (401) sliding connection on link (201), connecting portion (502) are connected on packing portion I (401), horizontal spout (501) fixed connection is on connecting portion (502), two sliding part (705) are fixed connection respectively on two packing portion II (701), two sliding part (705) equal sliding connection are on horizontal spout (501), press slot portion I (303) and two press slot portion II (304) to all set up in link (201) below.

4. A noodle processing process according to claim 3, characterized in that: the device also comprises a first air cylinder (305) and a connecting rod (307), the pressure groove part I (303) is fixedly connected to the two first air cylinders (305), the two pressure groove parts II (304) are both connected to the connecting rod (307) through screw threads, and the pressure groove part I (303) is connected to the connecting rod (307) through screw threads.

5. A noodle processing process according to claim 4, wherein: the device also comprises a second air cylinder (301) and a connecting strip (302), wherein the connecting strip (302) is connected to the connecting frame (201) in a sliding mode, the connecting strip (302) is fixedly connected to the second air cylinder (301), and the second air cylinder (301) is fixedly connected to the connecting frame (201).

6. A noodle processing process according to any one of claims 3-5, wherein: the device still includes carousel (403), dusting portion (601), goes out powder mouth (602) and slip shell (801), and two dusting portions (601) rotate respectively and connect on two packing portion II (701), and packing portion I (401) both ends rotate respectively and are connected with two slip shells (801), and sliding connection has two dusting portions (601) respectively in two slip shells (801), fixedly connected with carousel (403) on packing portion I (401), and connecting portion (502) rotate to be connected on carousel (403).

7. A noodle processing process according to claim 6, characterized in that: the device also comprises two discharging baffle plates (706), wherein the two discharging baffle plates (706) are respectively and fixedly connected to the two packing parts II (701), and the two discharging baffle plates (706) can shield the two powder outlets (602).

8. A noodle processing process according to claim 7, characterized in that: the device also comprises feeding plates (704), and the two filling parts II (701) are respectively and fixedly connected with the two feeding plates (704).

9. A noodle processing process according to claim 8, wherein: the device also comprises a sliding stop bar (306) and a matching groove (402), the matching groove (402) is formed in the packing part I (401), the sliding stop bar (306) is fixedly connected to the connecting bar (302), and the sliding stop bar (306) can be inserted into the matching groove (402).

10. A noodle processing process according to claim 9, characterized in that: the device further comprises a limiting baffle (603) and two matching blocking openings (803), wherein the two limiting baffles (603) are respectively arranged on the two powder scattering parts (601), and the two matching blocking openings (803) are respectively arranged on the two sliding shells (801).

Technical Field

The invention relates to the field of food processing, in particular to a noodle processing technology.

Background

The noodles are a food prepared by adding water into flour of grains or beans, grinding into dough, pressing or rolling or stretching into slices, cutting or pressing, or kneading, pulling, kneading, and frying. The noodles are various in variety and variety, and make people an essential food in daily life, but in the prior art, sandwich noodles capable of improving eating interest of children cannot be processed.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a noodle processing technology, and the invention has the beneficial effect that sandwich noodles capable of improving the eating interest of children can be processed.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a noodle processing technology comprises the following steps:

the method comprises the following steps: fully mixing flour, starch, salt, a gluten fortifier and water according to a proportion;

step two: performing dough kneading processing on the mixed materials;

step three: adding the dough-kneaded material into a dough pressing device for tabletting;

step four: cutting the sheet-shaped noodle into strips, and making into noodles.

The pressing device in the second step comprises a pressing platform, a pressing surface roller I, a connecting frame and a pressing surface roller II, wherein the pressing platform is an inclined plane, the connecting frame is fixedly connected to the pressing platform, the two pressing surface rollers I are respectively and rotatably connected to two ends of the pressing platform, and the two pressing surface rollers II are respectively and rotatably connected to the connecting frame.

The device still includes the arc slide, indent portion I, indent portion II, filler portion I, horizontal spout, connecting portion, filler portion II and sliding part, a plurality of arc slides all can dismantle the connection on the link through the screw, two filler portion II difference sliding connection are on a plurality of arc slides, I sliding connection of filler portion is on the link, connecting portion connect on filler portion I, horizontal spout fixed connection is on connecting portion, two other fixed connection of sliding part are on two filler portion II, the equal sliding connection of two sliding parts is on horizontal spout, indent portion I and two indent portion II all set up in the link below.

Drawings

The present disclosure may be more clearly understood from the following detailed description, taken with reference to the accompanying drawings, in which:

FIG. 1 is a schematic flow diagram of a noodle processing process;

FIG. 2 is a schematic view of a connection structure of an arc-shaped slideway and a transverse chute;

FIG. 3 is a schematic view of a connection structure of a groove pressing part I and a groove pressing part II;

FIG. 4 is a schematic view of the connection structure of the connection frame and the connection bar;

FIG. 5 is a partially enlarged view of the slide bar;

FIG. 6 is a schematic view showing a connecting structure of the powdering part and the sliding housing;

FIG. 7 is a schematic view of the connection structure of the packing part II and the dusting part;

FIG. 8 is a schematic structural view of the powdering section;

FIG. 9 is a schematic view of a sliding housing construction;

FIG. 10 is a schematic view showing a connection structure of the pressing table and the connection frame;

FIG. 11 is a schematic structural view of a packing section I;

FIG. 12 is a schematic structural view of a lateral chute;

fig. 13 is a schematic view of the connection structure of the connection frame and the packing part i.

Detailed Description

A noodle processing technology comprises the following steps: the method comprises the following steps: fully mixing flour, starch, salt, a gluten fortifier and water according to a proportion to obtain a mixture; step two: kneading the mixture to make dough; step three: adding the dough into a dough pressing device for tabletting; step four: cutting the sheet-shaped noodle into strips, and making into noodles.

In addition, as an example, as shown in fig. 10, this example solves the problem of pressing the dough after dough kneading into a sheet shape,

because flour, starch, salt, a gluten fortifier and water are fully mixed according to a proportion and are kneaded, the kneaded dough needs to be pressed into a sheet shape so as to be convenient for the subsequent processing operation of cutting into strips to prepare noodles, the device is provided with a pressing platform 101, a connecting frame 201, a pressing roller II 202 and a pressing roller I102, the upper surface of the pressing platform 101 is an inclined plane, two ends of the pressing platform 101 are respectively and rotatably connected with the two pressing rollers I102, the connecting frame 201 is rotatably connected with the two pressing rollers II 202, the pressing roller II 202 and the pressing roller I102 which are positioned at the higher side of the pressing platform 101 are connected through a belt, the pressing roller II 202 and the pressing roller I102 which are positioned at the lower side of the pressing platform 101 are connected through the belt, a worker places the kneaded dough between the pressing roller II 202 and the pressing roller I102 which are positioned at the higher side, and simultaneously drives the pressing roller II 202 and the pressing roller I102 which are positioned at the higher side to rotate under the driving of the belt, thereby make with good face by the higher side press the face to roll II 202 and press the face to roll I102 and roll, thereby will with good face and press into the slice, follow-up staff starts the belt of lower one side, make the lower one side press the face to roll II 202 and press the face to roll I102 and rotate, thereby carry out the secondary to the slice face and suppress, compare in traditional one shot forming's pressure face technology, use this device can carry out dual suppression face to face, thereby make the noodless of making by the slice face of suppression out compare in the tradition only through the once compression forming's noodless elasticity stronger, the taste is better.

In addition, as an example, as shown in fig. 2, 10, 13, this example solves the problem of mixing a sandwich additive in the plane,

because the traditional noodles have single taste and are not easy to attract children to use, the device is provided with a transverse sliding groove 501, a connecting part 502, a filling part II 701, a groove pressing part II 304, a filling part I401, arc-shaped sliding ways 203, a groove pressing part I303 and a sliding part 705, a plurality of arc-shaped sliding ways 203 are detachably connected on a connecting frame 201 through screws, four arc-shaped sliding ways 203 are arranged, four arc-shaped sliding ways 203 are uniformly distributed on the left side and the right side of the connecting frame 201, the directions of the arc-shaped sliding ways 203 are opposite, wherein the two arc-shaped sliding ways 203 on one side of the connecting frame 201 face the same direction, two filling parts II 701 are slidably connected on the four arc-shaped sliding ways 203, one filling part II 701 in the two filling parts II 701 is slidably connected on the two arc-shaped sliding ways 203 on one side of the connecting frame 201, the other filling part II 701 in the two filling parts 701 is slidably connected on the two arc-shaped sliding ways 203 on the other side of the connecting frame 201, a packing part I401 is connected on a connecting frame 201 in a sliding manner, a connecting part 502 is connected on the packing part I401, a transverse sliding groove 501 is fixedly connected on the connecting part 502, two sliding parts 705 are respectively fixedly connected on the two packing parts II 701, two sliding parts 705 are connected on the transverse sliding groove 501 in a sliding manner, two groove pressing parts II 304 and a groove pressing part I303 are arranged below the connecting frame 201, sandwich additives are added into the packing part I401 and the two packing parts II 701, after the blended surfaces are completely rolled by a surface pressing roller II 202 and a surface pressing roller I102 which are positioned at the higher side, the surface pressing roller II 202 and the surface pressing roller I102 which are positioned at the higher side are stopped to be driven to rotate, at the moment, the two groove pressing parts II and the groove pressing part I303 are pressed downwards, so that the two groove pressing parts II 304 and the groove pressing part I303 press the sheet surfaces to form grooves, then the two groove pressing parts II 304 and the groove pressing part I303 are lifted upwards and moved away, thereby leaking the grooves, at the moment, the filling part I401 is driven to slide on the connecting frame 201, and meanwhile, the sandwich additive in the filling part I401 is operated to fall down, so that the sandwich additive in the filling part I401 is scattered in a groove pressed out by the pressing groove part I303, meanwhile, the filling part I401 slides on the connecting frame 201, so that the connecting part 502 and the filling part I401 are driven to move in the same track, so that the transverse sliding groove 501 and the filling part I401 are driven to move in the same track, the transverse sliding groove 501 and the filling part I401 move in the same track, so that the two sliding parts 705 drive the two filling parts II 701 to slide on the plurality of arc-shaped sliding ways 203, at the moment, the sandwich additive in the two filling parts II 701 is controlled to fall down, so that the sandwich additive of the two filling parts II 701 is scattered in the grooves pressed out by the two pressing groove parts II 304, after the sandwich additive is scattered, the pressing surface roller II 202 and the pressing surface roller I102 which are positioned at the lower side are driven to rotate, thereby the slice face to having sandwich additive suppresses, thereby make the sandwich effect that is equipped with two arcs and a rectangular shape on the slice face of processing out, thereby make the noodless of making self the taste of taking sandwich additive of producing, thereby increase edible taste, attract children to eat, the setting of two arc sandwiches can be in the follow-up back of transversely slitting the slice face of processing out, can make the sandwich position of each noodless different, thereby further increase children's interest of eating the noodless, further attract children to eat.

In addition, as an example, as shown in FIG. 3, this example solves the problem of facilitating the groove-pressing operation by driving the groove-pressing section I303 and the two groove-pressing sections II 304 simultaneously,

because the pressure slot part I303 and the two pressure slot parts II 304 need to press grooves on the surface, a power source for driving the pressure slot part I303 and the two pressure slot parts II 304 to move downwards needs to be arranged, the pressure slot part I303 and the two pressure slot parts II 304 can be simultaneously operated to move so as to complete the exceeding of the pressure slot, and independent control is not needed, therefore, the device is provided with a cylinder 305 and a connecting rod 307, the two first cylinders 305 are fixedly connected with the pressure slot part I303, the connecting rod 307 is connected with the two pressure slot parts II 304 through screw threads, the connecting rod 307 is connected with the pressure slot part I303 through screw threads, when the pressure slot part I303 and the two pressure slot parts II 304 are required to press grooves on the surface, the two first cylinders 305 extend out so as to press the pressure slot part I303 downwards, so that the pressure slot part I303 presses the surface out the grooves, meanwhile, due to the arrangement of the connecting rod 307, the pressure slot part I303 moves downwards and drives the two pressure slot parts II 304 downwards, thereby make two indent portion II 304 push out the recess on the face to realize the drive indent portion I303 and two indent portion II 304 and carry out the effect of indent operation.

In addition, as an example, as shown in FIGS. 3 to 4, this example solves the problem of driving the groove section I303 and the two groove sections II 304 to move in the horizontal direction,

since the pressing groove part I303 and the two pressing groove parts II 304 need to be operated to move in the horizontal direction after the pressing groove part I303 and the two pressing groove parts II 304 are pressed out of the grooves, so that the sandwich additive can enter the grooves conveniently, the device is provided with the connecting strip 302 and the second air cylinder 301, the connecting strip 302 is connected on the connecting frame 201 in a sliding way, the connecting strip 302 is connected on the second air cylinder 301 in a fixed way, the second air cylinder 301 is connected on the connecting frame 201 in a fixed way, after the pressing groove part I303 and the two pressing groove parts II 304 are pressed out of the grooves on the surface, the two first air cylinders 305 contract so that the pressing groove part I303 and the two pressing groove parts II 304 move upwards, then the two second air cylinders 301 contract so that the connecting strip 302 slides on the connecting frame 201, so that the pressing groove part I303 and the two pressing groove parts 304 II move in the horizontal direction, so that the pressed grooves are exposed, thereby facilitating the entry of the additive sandwich into the recess.

In addition, as an example, as shown in fig. 6-9, this example solves the problem of dusting the two arcuate grooves with flour,

because two arc-shaped sandwiches and one strip-shaped sandwich are arranged on the sheet-shaped surface, when the sheet-shaped surface with the sandwich additive is pressed, the sandwich additive is positioned on the surface of the sheet-shaped surface, so that children can observe the sandwich position of the noodles, the interest of the children in eating the noodles cannot be increased, and the children can not eat the noodles, the device is provided with a powder outlet 602, a powder scattering part 601, a rotary disc 403 and a sliding shell 801, two powder scattering parts 601 are rotatably connected on the two filling parts II 701, the two sliding shells 801 are respectively and rotatably connected at two ends of the filling part I401, the two powder scattering parts (601) are respectively and rotatably connected in the two sliding shells (801), the filling part I401 is fixedly connected on the rotary disc 403, a connecting part 502 is rotatably connected on the rotary disc 403, and the bottom of the powder scattering part 601 is an inclined plane, filling flour into the two powder scattering parts 601, after adding a sandwich additive into the pressed groove, sliding the filling part I401 to the middle part of the connecting frame 201, then operating the connecting part 502 to rotate on the turntable 403 so that the connecting part 502 drives the transverse sliding groove 501 to rotate, the transverse sliding groove 501 rotates to drive the two filling parts II 701 to reversely slide on the arc-shaped sliding ways 203, so that the two filling parts II 701 gradually move away from the filling part I401, so that the two powder scattering parts 601 gradually slide out of the two sliding shells 801, so that the two powder outlets 602 leak out, so that the flour continuously leaks out through the two powder outlets 602 and falls to the two arc-shaped grooves, so that the flour covers the sandwich additive, and then subsequently drives the dough pressing roller II 202 and the dough pressing roller I102 which are positioned at the lower side to rotate, so that when pressing a flaky dough with the sandwich additive, the sandwich additive of two arc sandwich departments can be covered by flour to avoid children to observe the sandwich position of noodless, thereby play the interest that increases children's edible noodless, attract the edible effect of children.

In addition, as an example, as shown in fig. 7, this example solves the problem of preventing flour from spilling while the center-fill additive is being sprinkled,

because the flour needs to be controlled to be stored in the two powder scattering portions 601 in the process of scattering the sandwich additive, and the flour is discharged from the two powder scattering portions 601 when the connecting portion 502 rotates, the discharging baffle 706 is arranged in the device, the two discharging baffles 706 are fixedly connected to the two filling portions II 701 respectively, the two powder outlets 602 can be shielded by the two discharging baffles 706, when the filling portion I401 is operated to slide on the connecting frame 201, the connecting portion 502 does not rotate at the moment, so that the transverse sliding chute 501 is always kept horizontal, the two filling portions II 701 and the filling portion I401 are always kept in the horizontal position in the sliding process of the filling portion I401 on the connecting frame 201, at the moment, even if the two powder scattering portions 601 gradually slide off the two sliding shells 801, the two powder outlets 602 are still shielded by the two discharging baffles 706, so as to ensure that in the process of scattering the sandwich additive, flour is stored in the two powder scattering portions 601 all the time, after the scattering of the sandwich additives is finished, the filling portion I401 slides back to the middle position of the connecting frame 201, then the connecting portion 502 is driven to rotate, so that the transverse sliding groove 501 rotates, so that the two filling portions II 701 slide on the arc-shaped sliding rails 203 in the opposite directions, so that the two filling portions II 701 are far away from the filling portion I401 gradually, in the process, the two powder scattering portions 601 and the two sliding shells 801 rotate, the two powder scattering portions 601 slide out of the two sliding shells 801 gradually, because the two powder scattering portions 601 and the two sliding shells 801 rotate, the two discharging baffle plates 706 which are horizontal all the time cannot completely block the two powder outlets 602 of the two powder scattering portions 601, so that the flour falls into the two arc-shaped grooves gradually in the process of rotating the connecting portion 502, and the effect of covering the sandwich additives at the two arc-shaped sandwich portions by the flour is achieved, thereby avoiding the children to observe the sandwich position of the noodles, playing the role of increasing the interest of the children in eating the noodles and attracting the children to eat.

In addition, as an example, as shown in fig. 6-7, this example solves the problem of allowing flour to fall between two curved centers,

because two meal outlet 602 and two II 701 of packing portion are not in same position in vertical direction, the condition that can not spill the sandwich additive top of two arc sandwich departments from the unrestrained flour of two meal outlet 602 department may exist, so be provided with feed plate 704 in this device, two feed plate 704 are fixed connection respectively on two II 701 of packing portion, the flour that spills from two meal outlet 602 departments can slide down along two feed plate 704, thereby make the flour that spills from two meal outlet 602 departments can spill the sandwich additive top of two arc sandwich departments, thereby reach the effect of covering the sandwich additive.

In addition, as an example, as shown in fig. 4 to 5, this example solves the problem of ensuring that the packing portion i 401 is located at the middle position of the connecting frame 201,

because it is first required to guarantee that packing portion I401 is located the intermediate position of link 201, operation connecting portion 502 rotates again and just can guarantee that two packing portions II 701 move according to the orbit of prediction, be provided with slip shelves bar 306 and cooperation groove 402 in this device, when needs operation connecting portion 502 rotates, first through the flexible slide shelves bar 306 that second cylinder 301 moves to the slip orbit of packing portion I401 on, operation packing portion I401 slides afterwards, can't slide when packing portion I401 slides to cooperation groove 402 and slip shelves bar 306 contact, thereby confirm that packing portion I401 is in the intermediate position of link 201 this moment, thereby guarantee that connecting portion 502 rotates and can drive two packing portions II 701 and move according to the orbit of prediction, thereby make flour can spill to the sandwich additive top of two arc sandwich departments, thereby reach the effect of covering the sandwich additive.

In addition, as an example, as shown in fig. 8 to 9, this example solves the problem of preventing the two powdering parts 601 from slipping out of the two sliding housings 801,

since the two powder scattering portions 601 are prone to slide out of the two sliding shells 801 due to the fact that the sliding distance of the two powder scattering portions 601 is too far, the two powder scattering portions 601 are prone to slide out of the two sliding shells 801, the device is provided with the limiting baffle 603 and the matching baffle 803, the two limiting baffles 603 on the two powder scattering portions 601 are respectively provided with the two limiting baffles 603, the two sliding shells 801 are respectively provided with the two matching baffle 803, when the two powder scattering portions 601 slide out of the sliding shells 801 in the sliding process of the two sliding shells 801, the limiting baffle 603 is blocked by the matching baffle 803, so that the powder scattering portions 601 cannot slide out of the sliding shells 801, and the situation that the two powder scattering portions 601 slide out of the two sliding shells 801 due to the too far sliding distance of the powder scattering portions 601 is avoided.

The device further comprises a first motor 204 and a lead screw 206, wherein the first motor 204 is fixedly connected to the connecting frame 201, the lead screw 206 is fixedly connected to an output shaft of the first motor 204, and the packing part I401 is in threaded connection with the lead screw 206.

In addition, as an example, as shown in fig. 9, this example solves the problem of driving the packing part i 401 to slide on the link frame 201,

be equipped with first motor 204 and lead screw 206 in this device, the first motor 204 of fixedly connected with on the link 201, fixedly connected with lead screw 206 on the output shaft of first motor 204, threaded connection has filler portion I401 on the lead screw 206, when I401 of filler portion slides on link 201 needs to be driven, start first motor 204, the output shaft of first motor 204 rotates and drives lead screw 206 and rotate, lead screw 206 rotates and drives I401 of filler portion and slide on link 201, thereby realize spilling the sandwich additive to the effect in the recess on the face.

The device further comprises a second motor 503, a sliding block 207 and a sliding frame 205, wherein the connecting part 502 is fixedly connected to an output shaft of the second motor 503, the sliding frame 205 is fixedly connected to the connecting frame 201, the sliding block 207 is slidably connected to the sliding frame 205, and the second motor 503 is fixedly connected to the sliding block 207.

In addition, as an example, as shown in fig. 2 and 13, this example solves the problem of the rotation of the driving connection portion 502,

fixedly connected with connecting portion 502 on the output shaft of second motor 503 in this device, fixedly connected with carriage 205 on the link 201, sliding connection has slider 207 on carriage 205, fixedly connected with second motor 503 on slider 207, thereby when slip shelves strip 306 and cooperation groove 402 contact confirm that I401 of filler portion is located the link 201 intermediate position, start second motor 503, thereby make the output shaft of second motor 503 rotate, thereby drive connecting portion 502 rotates, thereby make two dusting portion 601 spill the flour to two arc recesses in, simultaneously because slider 207 and carriage 205's setting, can make in I401 sliding process of filler portion, second motor 503 follows I401 of filler portion and slides with the orbit, be convenient for the normal operating of second motor 503 when needing drive connecting portion 502 to rotate.

The device still includes pan feeding mouth I404, discharge gate I405, pan feeding mouth I702 and discharge gate II 703, is provided with two mouths I404 on the I401 of filler portion, is provided with discharge gate I405 on the I401 of filler portion, all is provided with discharge gate II 703 on two II 701 of filler portions, all is equipped with the automatically controlled valve in discharge gate I405 and the II 703 of discharge gate.

In addition, as an example, as shown in fig. 2 and 6, this example solves the problem of adding a sandwich additive to the filler part i 401 and the filler part ii 701 and dropping the additive to the pressed-out grooves,

the staff can be through adding sandwich additive to pan feeding mouth I404 and pan feeding mouth I702 to add sandwich additive to packing portion I401 and packing portion II 701 in, simultaneously in packing portion I401 and the removal process of packing portion II 701, the automatically controlled valve in discharge gate I405 and the discharge gate II 703 is opened, thereby spills sandwich additive into the recess on the slice face, accomplishes the work of spilling of sandwich additive.

The device also comprises a powder inlet 802, and the two sliding shells 801 are provided with the powder inlet 802.

In addition, as an example, as shown in fig. 9, this example solves the problem of adding flour into the dusting portion 601,

the worker can directly add flour into the two powdering portions 601 through the two powder inlets 802.