CN211960746U - High-moisture dough slitting and striking device - Google Patents

Abstract

The utility model discloses a high-moisture dough cutting and striking device, which relates to the technical field of food mechanical equipment and comprises a feeding bin, two horizontal triangular cutting rollers are arranged at the bottom of the inner cavity of the feeding bin, anti-sticking grooves are uniformly arranged on the edge surface of each horizontal triangular cutting roller, a first transfer conveying belt is arranged right below the bottom end of the feeding bin, a V-shaped hitting device is arranged right below the output end of the first transfer conveying belt, the V-shaped hitting device is of a V-shaped structure formed by two hitting roller groups, each hitting roller group is formed by a front baffle, a rear baffle, an upper round roller, a middle octagonal roller and a lower round roller, one of the two hitting roller groups is fixedly arranged on an external support, the top end of the other hitting roller group is rotatably arranged on the external support, the bottom end of the driving device is arranged on the external bracket through the driving device which can drive the driving device to do reciprocating motion around the shaft; the utility model discloses a cut fast and fully hit the purpose of beating, improved product quality and preparation efficiency.

Description

High-moisture dough slitting and striking device

Technical Field

The utility model relates to a food machinery equipment technical field, concretely relates to needle is carried during dough to its piecemeal processing back balance face piece weight error's conveyor.

Background

In the process of mechanical preparation of bread, steamed bread and the like, the main steps comprise kneading large dough into long strip-shaped dough blocks, then cutting and dividing the dough blocks into single dough blocks, and finally baking and the like to prepare the edible bread or steamed bread.

The high-moisture dough needs to be cut into pieces and patted to promote dough to be leavened when the bread or steamed bread is prepared, but the high-moisture dough has higher viscosity and certain fluidity when the bread or steamed bread is cut into pieces by the traditional equipment, so that the defect that a large number of small dough pieces are adhered to the inside of the equipment easily when the bread or steamed bread is cut into pieces is overcome, particularly, the high-moisture dough is adhered to a roller easily to influence the rotating speed of the roller, and a motor for driving the roller is easy to damage; most of equipment is one-time block cutting, then dough kneading is started to prepare dough, but due to the characteristic of high-moisture dough, the one-time block cutting easily causes blockage of a stock bin, and the dough is full of the stock bin and overflows, so that the stable operation of the equipment is not facilitated;

when the existing equipment is used for beating the dough blocks, the specific operation is that the dough blocks are placed on a conveyor belt to be beaten in a single-side mode, so that dough leavening is promoted, but the operation method causes dough to be promoted only in one side, so that the formed bread or steamed bread is not chewy enough, and the taste is poor.

Therefore, how to solve the problems that the high-moisture dough blocks the storage bin when being cut and the taste of the product is poor when the dough is hit by a single surface is urgently needed to be considered.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art not enough, provide a high moisture dough and cut and hit and beat and use device to solve prior art crowning moisture dough and block up the material cutting storehouse, the single face is hit and is beaten the poor technical problem of product taste.

The utility model discloses a realize through following technical scheme:

the utility model provides a high moisture face group is cut and is beaten and use device, including the feed storehouse of fixed mounting on external support, upper and lower both ends opening and thick-down thin-end-up, first water jet equipment is installed at the top of feed storehouse inner chamber, feed storehouse inner chamber bottom is rotated and is installed two horizontal triangular cutting rolls that are set up about the vertical plane symmetry at its central line, two horizontal triangular cutting rolls rotate towards feed storehouse central line direction under the drive of external power device respectively, each horizontal triangular cutting roll all evenly is equipped with antiseized glutinous recess on the facet, be provided with the first transportation area of sending fixedly mounting on external support under the feed storehouse bottom, be provided with V type under the output end of first transportation area of sending and hit the device, V type hits the device and specifically by two V type structures that hit the roller train and constitute about vertical face slope and symmetry setting, every hits and beats roller train and constitutes by preceding baffle, backplate, upper portion round roller, middle part eight arris rod, lower part round roller, upper portion round roller, middle part eight arris rod and lower part round roller are equal level and rotate and install in the space that is close to another hitting between preceding baffle and backplate and hits roller train one side, three's axis is in on same inclined plane, and three's outward flange all sets up the outside that baffle and backplate constitute the space in the front, two hit and beat a fixed mounting in the roller train and should hit the top of beating the roller train and install second water jet equipment on outside support, another top is rotated and is installed on outside support, its bottom is installed on outside support through the drive arrangement that can drive it and carry out axial reciprocating motion.

Furthermore, each horizontal triangular cutting roller is also provided with three triangular side columns which are rotationally symmetrical about the axis of the horizontal triangular cutting roller and are integrated with the horizontal triangular cutting roller, and one edge surface and one edge angle of each triangular side column are superposed with one edge surface and one edge angle of the corresponding horizontal triangular cutting roller.

Further, when two horizontal three-edged cutting rollers rotate to the arris portion and close to, two distances that close to and belong to respectively between the arris portion of the three-edged side column of two horizontal three-edged cutting rollers are not more than 5 mm.

Further, each feeding bin is composed of a bin body and a dividing bin, the bin body is of an inverted trapezoidal table structure with openings at the upper end and the lower end, the upper end is thick, the lower end is thin, and the bottom end is rectangular, the dividing bin is composed of a shell with openings at the upper end and the lower end and two horizontal triangular cutting rollers rotatably installed in the dividing bin, the bottom end of the bin body is inserted into the top end of the shell and is arranged in the shell and directly above the two horizontal triangular cutting rollers, the extending direction of the bin body bottom end is the same as that of the horizontal triangular cutting rollers, the length of the long rectangular side of the bin body bottom end is smaller than that of the horizontal triangular cutting rollers, the length of the short rectangular side of the bin body bottom end is smaller than the width of the two horizontal triangular cutting rollers, and the first.

Further, the area of the opening at the bottom end of the shell is smaller than the transverse cutting area on the horizontal plane formed by the outer edges of the two horizontal triangular cutting rollers.

Further, the number of the feeding bins is two, wherein one feeding bin is arranged right above the other feeding bin, and the size of the feeding bin above the feeding bin is larger than that of the feeding bin below the feeding bin.

Furthermore, two guide plates are symmetrically arranged on the outer support on the outer side of the bottom end of the feeding bin below about the center of the outer support.

Further, a second transfer conveying belt is fixedly mounted on the outer support right below the V-shaped hitting device.

Furthermore, the fixed mounting mode of the striking roller groups fixedly mounted on the external support is changed into the mode that the top ends of the striking roller groups are rotatably mounted on the external support through a rotating shaft, and the bottom ends of the striking roller groups are mounted on the external support through an adjusting device capable of adjusting the distance between the bottom ends of the two striking roller groups.

Further, adjusting device specifically by install rather than the locking bolt who hits on the hitting roller train, install the regulating plate on the outside support, set up the spout on the regulating plate and with locking bolt threaded connection's lock nut constitute, the spout is passed and lock nut threaded connection is passed to locking bolt's one end, and when locking bolt revoluted the rotation of axes, its orbit of sliding and spout coincidence.

Compared with the prior art, the utility model has the following advantages: the utility model provides a high moisture dough is cut and is hit and use device, through setting up two feed bins make the dough carry the feed bin of top after tentatively cutting, can input into the feed bin of below rapidly, by the secondary cutting, two horizontal three-edged cutting rollers on upper portion cut once simultaneously and accomplish after, under the condition of the viscidity of dough self and the pop-up of two horizontal three-edged cutting rollers, the dough piece that the secondary was cut can be cut for a second time fast after falling into the feed bin of below because of the volume is less, the efficiency of cutting is improved, after the lower division is cut and is accomplished, the upper portion can be cut once more, thereby reduced the degree of difficulty of cutting, can effectively avoid cutting and block up the feed bin, the efficiency of cutting is improved, avoided only once cutting to lead to the dough piece to overflow the storehouse of cutting, the; the first water spraying device is arranged in each feeding bin, so that high-moisture dough can be effectively prevented from being adhered to the inner cavity of the bin body, meanwhile, the arrangement of the anti-adhesion grooves of the edge surfaces of the horizontal triangular cutting roller enables the dough to fall on the grooves and cover the surfaces of the dough, uniform bubbles can be formed between the dough and the edge surfaces, the adhesion areas of the dough and the edge surfaces are reduced, and water sprayed on the edge surfaces by the aid of the regional water spraying devices can effectively reduce adhesion friction force between the dough and the edge surfaces and further combine flowability and adhesion characteristics of the high-moisture dough, so that small dough blocks attached to the edge surfaces can be effectively separated from each other, the purpose of no adhesion is achieved, and the stability of equipment is improved; the V-shaped beating device is arranged, so that the cut dough is extruded by six rollers in the flowing structure from top to bottom, the driving device is combined to drive one beating roller group to continuously swing and move relative to the other, when the dough flows between the rollers, certain adhesion can be generated between the dough and the corresponding rollers, so that the dough can be transversely pulled and extruded in the swinging process, the beating effect is further realized, the V-shaped beating device is arranged, the dough blocks are gradually extruded in the moving process, and the top-down round roller, the eight-edge roller and the round roller are arranged, so that the dough blocks can generate the stacking and pulling effects after falling onto the V-shaped beating device, compared with the round roller, the beating effect is more obvious in the reciprocating motion process, the upper round roller and the lower round roller are arranged to contribute to the flowing of the dough blocks, and the second water spraying device is combined to spray water to each roller, the sticky force of the surface block to the roller is reduced, so that the surface block is helpful for flowing, the defect that the surface block is sticky on the roller is avoided, and the double-sided flapping effect is realized.

Drawings

FIG. 1 is a schematic structural diagram of a device for splitting and beating high-moisture dough.

In the figure: 1. a feeding bin; 2. a first water spraying device; 3. a horizontal triangular cutting roller; 4. sticking-resistant grooves; 5. a first transfer conveyor belt; 6. a front baffle; 7. a tailgate; 8. an upper round roller; 9. a middle octagonal stick; 10. a lower round roller; 11. a second water spraying device; 12. a drive device; 13. a triangular prism; 14. a bin body; 15. a housing; 16. a material guide plate; 17. a second transfer conveyor.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, fig. 1 only shows a schematic diagram of key components of the present apparatus, all the components are mounted on an external bracket, etc. to form a stable apparatus structure, and for the purpose of clearly expressing the purpose of the present invention, unnecessary components such as the external bracket, etc. are omitted in fig. 1;

the utility model provides an embodiment:

the embodiment of fig. 1 is combined to provide a high-moisture dough cutting and beating device, which comprises a feeding bin 1 fixedly installed on an external support, wherein the feeding bin is provided with openings at the upper end and the lower end, the upper end and the lower end of the feeding bin are thick, the lower end of the feeding bin is thin, in order to avoid the defect that high-moisture dough adheres to the inner cavity of the feeding bin 1 due to certain fluidity and viscosity of the high-moisture dough, in the embodiment, a first water spraying device 2 is installed at the top of the inner cavity of the feeding bin 1, the first water spraying device 2 is connected with an external water injection device, so that water flow is sprayed in the feeding bin 1 to moisten the inner wall of the feeding bin, sticky dough blocks are effectively prevented from being stained, in order to effectively cut the high-moisture dough, two horizontal triangular cutting rollers 3 symmetrically arranged on the vertical plane where the central line is located are rotatably installed at the bottom of the inner cavity of the feeding bin 1, the two horizontal triangular cutting rollers, when the upper prismatic surface of the two horizontal triangular cutting rollers 3 is positioned at the same horizontal plane, dough falls on the upper prismatic surface and is stacked, after a certain time limit is reached, the two horizontal triangular cutting rollers 3 rotate to enable dough blocks stacked on the upper prismatic surface to flow downwards from the middle, and when the tops of the two horizontal triangular cutting rollers 3 are positioned at the same horizontal plane again, the dough is cut and waits for next cutting;

in the process, the effective cutting of the dough is realized;

in particular, in the present embodiment, each horizontal triangular cutting roll 3 is further provided with three triangular side columns 13 which are rotationally symmetric about the axis thereof and are integrated with the horizontal triangular cutting roll 3, and one edge surface and one edge angle of each triangular side column 13 are overlapped with one edge surface and one edge angle of the corresponding horizontal triangular cutting roll 3;

when the horizontal triangular cutting roller 3 is arranged to contain the triangular side columns 13, the effect is the same as that described above, and the equipment manufacturing cost can be effectively reduced under the condition that the area of the edge surface is increased and the cutting volume of the processed noodle blocks is increased, namely under the condition of the same contact area, the volume of the horizontal triangular cutting roller 3 containing the triangular side columns 13 is different from that of the horizontal triangular cutting roller 3 not containing the same, and further the equipment manufacturing cost can be effectively reduced;

in this embodiment, as shown in fig. 1, a horizontal triangular cutting roll 3 including triangular prism 13 is used.

Preferably, in the present embodiment, when the two horizontal three-edged cutting rolls 3 rotate until the edges are adjacent, the distance between the edges of the two adjacent three-edged columns 13 respectively belonging to the two horizontal three-edged cutting rolls 3 is not more than 5 mm;

through the arrangement, the dough can be effectively cut into pieces.

Specially, in this embodiment, all even antiseized glutinous recess 4 that is equipped with on every horizontal three-edged cutting roller 3's the faceted pebble, through the aforesaid setting, the dough falls on the faceted pebble back, can form even bubble on dough and the faceted pebble contact surface (be the faceted pebble), thereby reduce the area of contact of dough and faceted pebble effectively (antiseized glutinous recess 4 department is because of sunken formation gas gathering space promptly, the face piece falls to behind the faceted pebble, form airtight space, and keep a certain amount of air in the airtight space, and then reduce dough and faceted pebble contact surface) and reduced and be stained with the adhesion force, combine the steam that first water jet equipment 2 sprayed and the faceted pebble contact after, can further reduce and be stained with adhesion force and frictional force, change simultaneously and form the bubble, reduce face piece flow resistance.

Preferably, with reference to fig. 1, in this embodiment, each feeding bin 1 is composed of a bin body 14 and a dividing bin, the bin body 14 is specifically an inverted trapezoidal structure with openings at upper and lower ends, a thick upper end and a thin lower end, and a rectangular bottom end, the dividing bin is composed of a shell 15 with openings at upper and lower ends and two horizontal triangular cutting rollers 3 rotatably installed in the shell, the bottom end of the bin body 14 is inserted into the top end of the shell 15 and is arranged in the shell and directly above the two horizontal triangular cutting rollers 3, the extending direction of the bottom end of the bin body 14 is the same as the extending direction of the horizontal triangular cutting rollers 3, the length of the long rectangular edge at the bottom end of the bin body 14 is smaller than the length of the horizontal triangular cutting rollers 3, the length of the short rectangular edge at the bottom end of the bin body 14 is smaller than the widths of the two horizontal triangular cutting rollers 3;

the area of the opening at the bottom end of the shell 15 is smaller than the transverse cutting area on a horizontal plane formed by the outer edges of the two horizontal triangular cutting rollers 3;

through the arrangement, when the dough in the bin body 14 flows to the two horizontal triangular cutting rollers 3 in the shell 15 through the bottom end of the bin body 14, the dough is guaranteed to effectively flow to the two triangular cutting rollers 3 due to the arrangement of the sectional area, the dough can be effectively prevented from overflowing, the cut dough can be prevented from flowing into a non-specified area due to the arrangement of the sectional area of the bottom end of the shell 15, and the flow direction of the dough can be effectively controlled;

(the arrangement can effectively avoid the defect that dough is easy to overflow through gaps because two horizontal triangular cutting rollers 3 are arranged between the inner cavities of the feeding bin 1)

In particular, in this embodiment, in order to avoid the disadvantage that dough blocks the silo when being cut once, the number of the feeding bins 1 is two, wherein one feeding bin 1 is arranged right above the other feeding bin 1, and the size of the feeding bin 1 above is larger than that of the feeding bin 1 below (i.e. the feeding bin 1 below is a reduced version of the feeding bin 1 above);

through the arrangement, the primarily cut flour blocks can be effectively cut again, and the defects that the flour blocks are too large and are easy to block a bin due to one-time cutting are overcome;

in this embodiment, the cut dough pieces fall on a first transfer conveyor belt 5 which is arranged right below the bottom end of the feeding bin 1 and fixedly mounted on an external support, and are transferred into a V-shaped hitting device arranged right below the output end of the first transfer conveyor belt 5;

preferably, in order to effectively control the falling of the dough blocks into the first transfer conveyor belt 5, two material guide plates 16 are symmetrically installed on the outer support at the outer side of the bottom end of the feeding bin 1 below about the center thereof, so that the flow direction of the dough blocks is controlled by the two material guide plates 16, and the dough blocks accurately fall into the first transfer conveyor belt 5;

preferably, in this embodiment, in order to achieve double-sided striking of the facing block and improve product quality, the V-shaped striking device is specifically of a V-shaped structure formed by two striking roller sets which are inclined and symmetrically arranged with respect to a vertical surface, each striking roller set is formed by a front baffle 6, a rear baffle 7, an upper round roller 8, a middle octagonal roller 9 and a lower round roller 10, the upper round roller 8, the middle octagonal roller 9 and the lower round roller 10 are horizontally and rotatably installed in a space between the front baffle 6 and the rear baffle 7 and close to one side of the other striking roller set, axes of the three are on the same inclined plane, and outer edges of the three are all arranged outside the space formed by the front baffle 6 and the rear baffle 7; the inclined arrangement forms a V-shaped structure, and the cross section area of the joint surface block is larger when the joint surface block falls down, so that the joint surface block is prevented from being excessively extruded when initially contacting the surface block, and the surface block is prevented from overflowing;

one fixed mounting in two hitting roller groups is on external support and the second water jet equipment 11 is installed at the top of hitting roller group (after second water jet equipment 11 is connected with outside water supply installation, can spray a plurality of running rollers effectively, thereby can reduce the frictional force between face piece and the running roller), another top is rotated and is installed on external support, its bottom is installed on external support through drive arrangement 12 that can drive it and carry out around axle reciprocating motion, reciprocating motion's in-process, make the face piece that is in between two hitting roller groups be in horizontal extrusion and tensile process of relapse, thereby realized the purpose of patting.

Through the arrangement, after falling into the V-shaped beating device from the first transfer conveying belt 5, the dough pieces firstly fall between the two middle octagonal rollers 9 for squeezing and beating after being squeezed and beaten by the two upper circular rollers 8, and finally the dough pieces are squeezed and beaten by the two lower circular rollers 10 to complete the whole beating process, so that the purpose of double-sided beating is realized, and the defect of single-sided beating is avoided;

the arrangement of the two upper round rollers 8 can avoid the flour blocks from being accumulated on the upper round rollers, so that the flour blocks can flow conveniently;

the arrangement of the two middle octagonal rods 9 (due to the arrangement of the prism surfaces) enables the dough blocks to be effectively accumulated for a certain time (stronger during extrusion) when being positioned above the two rods and to flow faster when being positioned below the rods (the prism surfaces enable the dough blocks adhered to the prism surfaces to be longer in separation distance, which is beneficial to separation and stronger during stretching), so that the extrusion and stretching degrees are stronger in the reciprocating motion process, and the flapping effect is improved;

after the dough pieces fall onto the two lower circular rollers 8 and are flapped to a certain degree, the dough pieces flow into the second transfer conveyor belt 17 fixedly arranged on the outer support right below the V-shaped beating device, and the beating process is completed.

In the embodiment, in order to adapt to the flapping of various face blocks and enable the thickness of the flapped face blocks to be adjustable, the fixed mounting mode of the beating roller groups fixedly mounted on the external support is changed into the mode that the top ends of the beating roller groups are rotatably mounted on the external support through a rotating shaft, and the bottom ends of the beating roller groups are mounted on the external support through an adjusting device capable of adjusting the distance between the bottom ends of the two beating roller groups;

particularly, the adjusting device is composed of a locking bolt arranged on the beating roller group corresponding to the adjusting device, an adjusting plate arranged on the external support, a sliding groove formed in the adjusting plate and a locking nut in threaded connection with the locking bolt, one end of the locking bolt penetrates through the sliding groove and is in threaded connection with the locking nut, and when the locking bolt rotates around the rotating shaft, the sliding track of the locking bolt coincides with the sliding groove.

Through the arrangement, the distance between the two lower circular rollers 10 can be adjusted by loosening the locking nut and adjusting the position of the locking bolt relative to the sliding groove, so that the thickness of the face block after the beating is finished can be effectively controlled.

In this embodiment, referring to fig. 1, the driving device 12 is specifically composed of an eccentric wheel driven by an external motor (the external motor is mounted on an external bracket, and is omitted in fig. 1) and a driving plate (as shown in fig. 1) sleeved outside the eccentric wheel, and one end of the driving plate is rotatably connected with the corresponding backboard 7, so that the eccentric wheel drives the driving plate to drive the corresponding striking roller set to perform reciprocating motion around the shaft.

The working principle is as follows:

all parts of the equipment are started, and the first water spraying device 2 and the second water spraying device 11 spray corresponding bin bodies 14;

after the processed high-moisture dough is put into the upper bin body 14, part of the dough is guided by the bottom end of the upper bin body 14 to enter the two horizontal triangular cutting rollers 3 in the upper shell 15 to be primarily cut, then the processed high-moisture dough falls into the lower bin body 14 to enter the lower shell 15 through the bottom end guide, is correspondingly secondarily cut, and finally falls onto the first conveying belt 5 after being guided by the material guide plate 16 to be transported (wherein the rotating speed of the two horizontal triangular cutting rollers 3 above is less than that of the two horizontal triangular cutting rollers 3 below, so that the speedy secondary cutting is realized, and the defect of dough overflow during the primary cutting is avoided);

the dough after transporting falls into V type and hits the device in, through the extrusion and tensile back of two upper portion round rollers 8, two middle part eight arris round rollers 9, two lower part round rollers 10 in proper order, accomplishes and hits the target of beating to fall into the second and transport conveyer belt 17 on, transported, accomplish whole cutting and hit the process of beating.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A high-moisture dough cutting and striking device comprises a feeding bin (1) which is fixedly installed on an external support, is provided with openings at the upper end and the lower end, and is thick at the upper end and thin at the lower end, and is characterized in that a first water spraying device (2) is installed at the top of an inner cavity of the feeding bin (1), two horizontal triangular cutting rollers (3) which are symmetrically arranged on the vertical plane of the central line of the feeding bin (1) are rotatably installed at the bottom of the inner cavity of the feeding bin (1), the two horizontal triangular cutting rollers (3) are driven by an external power device to rotate towards the central line direction of the feeding bin (1), anti-sticking grooves (4) are uniformly formed in the edge surface of each horizontal triangular cutting roller (3), a first conveying belt (5) fixedly installed on the external support is arranged under the bottom end of the feeding bin (1), and a V-shaped striking device is arranged under the output end of the first conveying belt (, the V-shaped beating device is of a V-shaped structure formed by two beating roller groups which are inclined relative to a vertical surface and are symmetrically arranged, each beating roller group is formed by a front baffle (6), a rear baffle (7), an upper round roller (8), a middle octagonal roller (9) and a lower round roller (10), the upper round roller (8), the middle octagonal roller (9) and the lower round roller (10) are horizontally and rotatably arranged in a space between the front baffle (6) and the rear baffle (7) and close to one side of the other beating roller group, the axes of the three are positioned on the same inclined plane, the outer edges of the three are arranged on the outer side of the space formed by the front baffle (6) and the rear baffle (7), one of the two beating roller groups is fixedly arranged on an outer support, a second water spraying device (11) is arranged at the top of the beating roller group, and the top of the other beating roller group is rotatably arranged on the outer support, the bottom end of the driving device is arranged on the external bracket through a driving device (12) which can drive the driving device to do reciprocating motion around the shaft.

2. A high moisture dough splitting and striking device as claimed in claim 1, wherein each horizontal triangular cutting roll (3) is further provided with three triangular side columns (13) which are rotationally symmetric about the axis and are of an integral structure with the horizontal triangular cutting roll, and one edge surface and one edge angle of each triangular side column (13) are coincided with one edge surface and one edge angle of the corresponding horizontal triangular cutting roll (3).

3. A device for slitting impact of high moisture dough according to claim 2, characterized in that when two horizontal triangular slitting rolls (3) rotate until the edges are adjacent, the distance between the edges of two triangular prism (13) adjacent and respectively belonging to the two horizontal triangular slitting rolls (3) is not more than 5 mm.

4. The device for slitting and striking the high-moisture dough according to claim 3, wherein each feeding bin (1) comprises a bin body (14) and a dividing bin, the bin body (14) is an inverted trapezoidal structure with openings at the upper and lower ends, a thick upper end and a thin lower end, and a rectangular bottom end, the dividing bin is composed of a shell (15) with openings at the upper and lower ends and two horizontal triangular cutting rollers (3) rotatably installed in the shell, the bottom end of the bin body (14) is inserted into the top end of the shell (15) and is arranged in the shell and is positioned right above the two horizontal triangular cutting rollers (3), the extending direction of the bottom end of the bin body (14) is the same as the extending direction of the horizontal triangular cutting rollers (3), the length of the long side of the rectangle at the bottom end of the bin body (14) is smaller than the length of the horizontal triangular cutting rollers (3), the length of the short side of the rectangle at the bottom end of the bin body (14) is smaller than the width of the two horizontal triangular cutting rollers, the first water spraying device (2) is installed at the top end of the inner cavity of the bin body (14).

5. A device for splitting and beating high-moisture dough according to claim 4, wherein the area of the opening at the bottom end of the shell (15) is smaller than the cross-sectional area of a horizontal plane formed by the outer edges of the two horizontal triangular cutting rollers (3).

6. A device for splitting and beating high-moisture dough according to claim 3 or 4, characterized in that the number of the feeding bins (1) is two, one feeding bin (1) is arranged right above the other feeding bin (1), and the size of the feeding bin (1) above is larger than that of the feeding bin (1) below.

7. A device for splitting and beating high-moisture dough according to claim 6, characterized in that two guide plates (16) are symmetrically arranged on the outer support outside the bottom end of the lower feeding bin (1) about the center thereof.

8. A high moisture dough splitting beating device according to claim 7, wherein a second transfer conveyer belt (17) is fixedly mounted on an external support right below the V-shaped beating device.

9. A high moisture content dough dividing and cutting beating device as claimed in claim 6, wherein the fixed mounting of the beating roller sets on the external support is changed to a manner that the top ends of the beating roller sets are rotatably mounted on the external support through a rotating shaft, and the bottom ends of the beating roller sets are mounted on the external support through an adjusting device capable of adjusting the distance between the bottom ends of the two beating roller sets.

10. The high-moisture dough splitting and striking device as claimed in claim 9, wherein the adjusting device is specifically composed of a locking bolt mounted on the striking roller set corresponding to the adjusting device, an adjusting plate mounted on the external support, a sliding groove formed in the adjusting plate, and a locking nut in threaded connection with the locking bolt, one end of the locking bolt penetrates through the sliding groove and is in threaded connection with the locking nut, and when the locking bolt rotates around the rotating shaft, the sliding track of the locking bolt coincides with the sliding groove.

Images