CN215381079U - Fermented dough shearing device - Google Patents

Abstract

The utility model discloses a fermented dough shearing device which comprises a rack, a conveying cylinder arranged on the rack, a feed hopper arranged on the conveying cylinder, a conveying paddle arranged in the conveying cylinder, a conveying motor used for driving the conveying paddle to rotate, an extrusion port used for extruding and forming dough, a cutter used for shearing the dough, a shearing motor used for driving the cutter, a conveying belt used for conveying the dough to be discharged and a flour wrapping structure used for wrapping the dough with flour, wherein the flour wrapping structure comprises a flour wrapping cabin arranged on the rack, a flour sprinkling roller arranged in the flour wrapping cabin, a flour sprinkling hole arranged on the flour sprinkling roller, a flour sprinkling motor used for driving the flour sprinkling roller to rotate and a flour feeding assembly used for inputting the flour into the flour sprinkling roller.

Description

Fermented dough shearing device

Technical Field

The utility model belongs to the technical field of dough processing, and particularly relates to a fermented dough shearing device.

Background

In steamed corn bread production process, need carry out the stripping and slicing to the dough after the fermentation, and the dough after the stripping and slicing is in order to prevent adhesion once more together, often need wrap up some flour on the dough surface, present mostly be the manual work and add the flour, need the special messenger to add regularly and spill the interpolation, not only consume manpower and insanitation, manual work is spilled the flour simultaneously and is hardly evenly spilled on the dough, the condition that the dough bondd still appears easily

SUMMERY OF THE UTILITY MODEL

The utility model provides a fermented dough shearing device which does not need manual sprinkling and ensures that the cut dough is not adhered to overcome the defects of the prior art.

In order to achieve the purpose, the utility model adopts the following technical scheme: a fermented dough shearing device comprises a rack, a conveying cylinder arranged on the rack, a feeding hopper arranged on the conveying cylinder, a conveying paddle arranged in the conveying cylinder, a conveying motor used for driving the conveying paddle to rotate, an extrusion port used for extruding and molding dough, a cutter used for shearing the dough, a shearing motor used for driving the cutter, a conveying belt used for conveying the discharged dough and a flour wrapping structure used for wrapping the flour on the dough, wherein the flour wrapping structure comprises a flour wrapping cabin arranged on the rack, a flour sprinkling roller arranged in the flour wrapping cabin, a flour sprinkling hole arranged on the flour sprinkling roller, a flour sprinkling motor used for driving the flour sprinkling roller to rotate and a flour feeding assembly used for inputting the flour into the flour sprinkling roller; through wrapping up in the setting of whitewashed structure, can follow the dough and cut down to go into through the cutter wrap up in the powder under-deck, the flour roller rotates, and flour evenly falls out through the flour hole that spills, powder on the even bonding on the dough to need not manual operation, when effectively practicing thrift the human cost, guarantee to fully wrap up in appropriate amount flour on the dough, avoid the dough to bond in follow-up transportation production, so that subsequent normal processing production.

Preferably, the powder feeding assembly comprises a powder feeding pipe arranged on the powder spraying roller, a powder feeding hole arranged on the powder feeding pipe, a material distributing paddle arranged on the powder feeding pipe, a material pumping machine and a material pumping pipe used for connecting the powder feeding pipe with the material pumping machine; through the setting of feeding subassembly, along with the material pumping machine through taking out the powder pipe with the flour suction in the powder pipe, the flour falls through advancing the powder hole on the inner wall of unrestrained powder roller, and along with the rotation of unrestrained powder roller with the drive of branch material oar, flour evenly distributed in unrestrained powder roller to further guarantee that the scattering of unrestrained powder roller is even, guarantee that the dough surface can fully wrap up in proper amount of flour, avoid the dough to bond in follow-up transportation production, so that subsequent normal processing production.

Preferably, the powder distributing paddle is provided with a powder scraping plate, the powder scraping plate is provided with a plurality of frustum tables, the frustum tables are provided with a plurality of barbs, and through the arrangement of a special structure on the powder distributing paddle, along with the rotation of the powder spraying roller, the powder scraping plate can scrape flour, so that the stacking thickness of the flour in the powder spraying roller is kept at a proper size and is uniformly distributed in the powder spraying roller through the guiding promotion of the powder distributing paddle, and the uniform spraying of the powder spraying roller is further ensured; simultaneously, frustum and barb can insert spill downthehole, in order to dredge spill whitewashed hole avoids spilling whitewashed hole to block up, guarantees spill the normal ejection of compact in whitewashed hole.

Preferably, the flour wrapping structure further comprises a vibration assembly used for enabling flour in the flour wrapping cabin to be in contact with the dough, and the vibration assembly comprises a vibration plate arranged in the flour wrapping cabin, a first vibration spring arranged on the vibration plate, a second vibration spring arranged on the vibration plate, a baffle arranged on the vibration plate and a striking component used for slowing down the falling of the flour; through the arrangement of the vibration assembly, when the dough falls into the flour wrapping cabin, the dough can strike the vibration plate and extrude the first vibration spring to generate vibration, and meanwhile, the vibration plate is elastically connected with the side wall of the flour wrapping cabin through the second vibration spring to further intensify the vibration so as to vibrate the flour in the flour wrapping cabin, so that the dough is further fully contacted with the flour, the surface of the dough can be fully wrapped with a proper amount of flour, the dough is prevented from being bonded in subsequent transportation production, and the subsequent normal processing production is facilitated; meanwhile, due to the arrangement of the baffle plate, flour is limited to fall into a gap between the vibrating plate and the flour wrapping cabin, and waste of the flour is avoided.

Preferably, the striking component comprises a striking wheel arranged on the powder coating cabin, a striking boss arranged on the striking wheel, a striking motor used for driving the striking wheel to rotate and a striking table arranged on the powder coating cabin; through strike the setting of component, can further strike the vibration and wrap up in the raising of powder cabin with aggravation flour in order to guarantee dough and flour full contact, produce ascending impact force, slow down the whereabouts of flour, guarantee the availability factor to flour, reduce the processing cost that the dough was cuted.

Preferably, the flour wrapping structure further comprises an arrangement assembly used for arranging the dough to uniformly discharge, wherein the arrangement assembly comprises a buffer box arranged on the rack, an arrangement motor arranged on the buffer box, an arrangement roller arranged on the arrangement motor, an arrangement box arranged on the arrangement roller and a telescopic piece used for controlling the falling speed of the dough; through the arrangement of the arrangement assembly, according to the sizes of different doughs, after the inclination angle of the material wrapping cabin is adjusted by the telescopic piece so as to adjust the falling speed of the doughs, the arrangement box rotates at a certain speed under the driving of the arrangement motor along with the falling of the doughs from the material wrapping cabin and the falling of the doughs onto the arrangement box, so that the doughs tend to be relatively static with the cleaning box when falling onto the arrangement box, and the doughs are prevented from being randomly ejected; simultaneously flour falls to arranging the box, along with the upset of clearance box, the dough can slide to one side lateral wall limit of clearance box and arrange into a line to fall to the buffering box after further contacting with flour, and after the promotion at the box back is arranged to the back, the dough falls to the conveyer belt and carries to the next station and process, thereby when realizing further wrapping up in the powder to the dough, arrange the dough and arrange and the even ejection of compact, so that subsequent normal processing production.

In summary, the utility model has the following advantages: through wrapping up in the setting of whitewashed structure, need not manual operation, when effectively practicing thrift the human cost, guarantee to wrap up in proper amount flour on the dough fully, avoid the dough to bond in follow-up transportation production to subsequent normal processing production.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic cross-sectional view of the present invention.

Fig. 3 is a partially enlarged view of a portion a in fig. 2.

Fig. 4 is a partially enlarged view of fig. 2 at B.

Fig. 5 is a partially enlarged view of C in fig. 2.

Fig. 6 is a schematic cross-sectional view of a powder coating chamber.

Fig. 7 is a partial structure schematic diagram of the distribution paddle.

Detailed Description

As shown in fig. 1-7, a fermented dough shearing apparatus comprises a frame 1, a conveying cylinder 11, a feeding hopper 12, a conveying paddle, a conveying motor 14, an extrusion port 15, a cutter 16, a shearing motor 17, a conveying belt 18 and a flour wrapping structure, wherein the conveying cylinder 11 is fixedly mounted on the frame 1, and the feeding hopper 12 is fixedly mounted on the conveying cylinder 11; the transportation paddle is a propeller and is rotationally arranged in the transportation cylinder 11; the transportation motor is fixedly arranged on the rack 1 and is used for driving the material transporting paddle to rotate; the extrusion connector 15 is arranged on the transport cylinder 11, is in the prior art, and can be replaced by different extrusion connectors according to different sizes of products; the shearing motor 17 is fixedly arranged on the rack 1, and the cutter 16 is fixedly arranged on an extending shaft of the shearing motor 17; the conveyer belt 18 is installed on the frame 1 and is located on one side of the conveyer drum 11 close to the extrusion port 15.

Specifically, the powder wrapping structure comprises a powder wrapping cabin 21, a powder spraying roller 22, a powder spraying hole 23, a powder spraying motor 24, a powder feeding assembly, a vibration assembly and a arranging assembly; the powder wrapping cabin 21 is rotatably connected to the frame 1 and is obliquely arranged between the conveying cylinder 11 and the conveying belt 18; the powder spraying roller 22 is rotatably connected in the powder coating cabin 21, and a plurality of rows of powder spraying holes 23 are uniformly formed in the side wall of the powder spraying roller 22 along the circumferential direction; the powder spraying motor 24 is fixedly arranged on the outer wall of the powder coating cabin 21 and is used for driving the powder spraying roller 22 to rotate.

Further, the powder feeding assembly comprises a powder feeding pipe 25, a powder feeding hole 26, a material distributing paddle 27, a material pumping machine 28 and a material pumping pipe 29; the powder inlet pipe 25 is fixedly arranged in the powder wrapping cabin 21 and is positioned in the powder spraying roller 22; a powder inlet hole 26 is formed in the powder inlet pipe 25 along the axial direction of the powder inlet pipe, and the powder inlet hole 26 is a special-shaped long hole spirally arranged around the side wall of the powder inlet pipe 25; the powder inlet pipe 25 is fixedly provided with the distributing paddle 27, the distributing paddle 27 is also spirally arranged, the side edge of the distributing paddle 27 far away from the powder sprinkling roller 22 is fixedly connected with a powder scraping plate 271, the powder scraping plate is fixedly connected with a plurality of conical tables 272, and the conical tables 272 are fixedly connected with a plurality of barbs 273 at intervals along the circumferential direction of the side wall of the conical tables 272; the material pumping machine 28 is a conventional machine, and includes a common rotary air pump for pumping flour into the flour inlet pipe 25; one end of the material pumping pipe 29 is connected to the material pumping machine 28, and the other end is connected to the powder feeding pipe 25.

Further, the vibration assembly includes a vibration plate 31, a first vibration spring 32, a second vibration spring 33, a baffle 34, and a striking member; the vibrating plate 31 is movably arranged in the powder wrapping cabin 21; the first vibrating springs 32 are fixedly installed on the inner bottom surface of the powder wrapping cabin 21 and are arranged in a plurality along the length direction of the powder wrapping cabin 21, one end of each first vibrating spring 32 is fixedly connected to the bottom of the vibrating plate 31, and the other end of each first vibrating spring is fixedly connected to the inner bottom surface of the powder wrapping cabin 21; the second vibration springs 33 are fixedly connected to the side walls of the two sides of the activity cabin, a plurality of side walls of the vibration plate 31 are arranged at intervals, one end of each second vibration spring 33 is fixedly connected to the side wall of the vibration plate 31, and the other end of each second vibration spring 33 is fixedly connected to the side wall of the powder wrapping cabin 21; the baffle 34 is fixedly connected to the vibrating plate 31 and located above the second vibrating spring 33, one end of the baffle is fixedly connected to the side wall of the vibrating plate 31, the other end of the baffle is fixedly connected to the side wall of the powder wrapping cabin 21, and the baffle 34 can be an arc-shaped plate or a telescopic sleeve plate made of elastic materials.

Further, the striking member includes a striking wheel 41, a striking boss 42, a striking motor 43, and a striking table 44; the striking wheel 41 is arranged below the powder wrapping cabin 21, and a plurality of striking bosses 42 are uniformly and fixedly connected to the striking wheel along the circumferential direction; the striking motor 43 is fixedly arranged at the bottom of the powder wrapping cabin 21 and is used for driving the striking wheel 41 to rotate; the striking table 44 is fixedly mounted on the bottom side wall of the powder coating cabin 21, the height of the striking table 44 from the side wall of the powder coating cabin 21 is gradually reduced along the direction from the conveying cylinder 11 to the conveying belt 18, and the striking table 44 and the striking boss 42 can interfere and impact and contact.

Further, the flour wrapping structure further comprises a arranging assembly for arranging the dough to uniformly discharge, wherein the arranging assembly comprises a buffer box 51, an arranging motor 52, an arranging roller 53, an arranging box 55 and a telescopic piece 54; one end of the buffer box 51 is rotatably connected to the flour wrapping cabin 21, the other end of the buffer box 51 is rotatably connected to the frame 1, the buffer box 51 is positioned between the flour wrapping cabin 21 and the conveyor belt 18, a leak-proof plate is fixedly mounted on the buffer box 51, the leak-proof plate is an organ-shaped telescopic sleeve plate, and one end of the leak-proof plate is fixedly connected to the flour wrapping cabin 21 so as to limit flour leakage; the arrangement motor 52 is fixedly arranged on the side wall of the buffer box 51; the arrangement roller 53 is fixedly mounted on a movable shaft of the arrangement motor 52; the arrangement boxes 55 are fixedly mounted on the arrangement rollers 53 and are arranged in plurality along the circumferential direction of the arrangement rollers 53; one end of the telescopic member 54 is hinged to the frame 1, and the other end is hinged to the bottom of the buffer box 51, and the telescopic member 54 may be an air cylinder.

The specific implementation process of the utility model is as follows: the kneaded dough is placed into a feed hopper 12, and is extruded from an extrusion port 15 along with the extrusion transmission of a conveying paddle, a cutting motor 17 drives a cutting knife 16 to rotate to cut the dough, and the dough enters a material wrapping cabin to be contacted with flour in the material wrapping cabin; meanwhile, as the flour is pumped into the flour inlet pipe 25 by the powder pumping machine 28 through the powder pumping pipe, the flour falls onto the inner wall of the powder spraying roller 22 through the powder inlet hole 26, and along with the rotation of the powder spraying roller 22 and the driving of the distribution paddle 27, the flour is uniformly distributed in the powder spraying roller 22, the powder spraying roller 22 rotates, the flour uniformly falls onto the dough through the powder spraying hole 23, meanwhile, the dough falls onto the vibration plate 31, and the vibration plate 31 vibrates the flour on the vibration plate, so that the dough is further fully contacted with the flour; then, the dough falls out of the material wrapping cabin and falls onto the arrangement box 55, the arrangement box 55 is driven by the arrangement motor 52 to rotate at a certain speed, and the dough tends to be relatively static with the cleaning box when falling onto the arrangement box 55, so that the dough is prevented from being randomly ejected; meanwhile, flour falls on the arrangement box 55, the dough slides to one side of the arrangement box along with the overturning of the arrangement box and is arranged in a row, and the dough further contacts with the flour and then falls on the buffer box 51, and after being pushed by the back of the next arrangement box 55, the dough falls on the conveying belt 18 and is conveyed to the next station for processing.

Claims (6)

1. The utility model provides a fermented dough shearing mechanism, includes frame (1), locates transport section of thick bamboo (11) in frame (1), locate feeder hopper (12) on the transport section of thick bamboo (11), locate transport oar in the transport section of thick bamboo (11), be used for the drive transport oar pivoted fortune material motor (14), be used for extrusion moulding dough extrude interface (15), be used for shearing cutter (16) of dough, be used for the drive shear motor (17) of cutter (16), be used for carrying the transportation area (18) of the ejection of compact of dough and be used for the dough to wrap up in the flour structure, its characterized in that: wrap up in whitewashed structure including locating wrap up in whitewashed cabin (21), locate in frame (1) wrap up in whitewashed cabin (21) whitewashed roller (22), locate whitewashed hole (23) on whitewashed roller (22), be used for the drive whitewashed roller (22) pivoted whitewashed motor (24) and be used for with the flour input whitewashed subassembly of advancing in the whitewashed roller (22).

2. A bread dough shearing apparatus as defined in claim 1, further comprising: the powder feeding assembly comprises a powder feeding pipe (25) arranged on the powder spraying roller (22), a powder feeding hole (26) arranged on the powder feeding pipe (25), a material distributing paddle (27) arranged on the powder feeding pipe (25), a material pumping machine (28) and a material pumping pipe (29) used for connecting the powder feeding pipe (25) with the material pumping machine (28).

3. A bread dough shearing apparatus as defined in claim 2, further comprising: be equipped with on branch material oar (27) and scrape whitewashed board (271), scrape and be equipped with a plurality of frustum (272) on the whitewashed board, be equipped with a plurality of barbs (273) on frustum (272).

4. A bread dough shearing apparatus as defined in claim 1, further comprising: wrap up in whitewashed structure still including being used for wrapping up in the vibration subassembly of the flour in whitewashed cabin (21) and the contact of dough, the vibration subassembly is including locating vibration board (31) in whitewashed cabin (21), locating first vibrating spring (32) on vibration board (31), locate second vibrating spring (33) on vibration board (31), locate baffle (34) on vibration board (31) and be used for slowing down the striking component that the flour fell out.

5. A bread dough shearing device as claimed in claim 4, wherein: the striking component comprises a striking wheel (41) arranged on the powder wrapping cabin (21), a striking boss (42) arranged on the striking wheel (41), a striking motor (43) used for driving the striking wheel (41) to rotate and a striking platform (44) arranged on the powder wrapping cabin.

6. A bread dough shearing apparatus as defined in claim 1, further comprising: wrap up in whitewashed structure still including being used for arranging the range subassembly of dough with even ejection of compact, the range subassembly is including locating buffer box (51) in frame (1), locating arrange motor (52) on buffer box (51), locate arrange roller (53) on the motor (52), locate arrange box (55) on roller (53) and be used for controlling dough dropping speed's extensible member (54).

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