CN213246615U

CN213246615U - Face segment forming device

Info

Publication number: CN213246615U
Application number: CN202022175061.5U
Authority: CN
Inventors: 李建斌; 张玉; 余亮
Original assignee: Qingtongxia Laomiao Food Co ltd
Current assignee: Qingtongxia Laomiao Food Co ltd
Priority date: 2020-09-28
Filing date: 2020-09-28
Publication date: 2021-05-25
Anticipated expiration: 2030-09-28

Abstract

The utility model provides a face section forming device, relates to wheaten food preparation technical field, including support frame, the transportation area of setting on the support frame, heater, cutter unit spare, heater and cutter unit spare set gradually along the direction of transportation in transportation area, and both all are located the transportation area directly over, and cutter unit spare sets up in the position that is close to the transportation area end, and the heat of heater is aimed at the transportation area and is gived off. The glutinous rice dough is through the heater heating earlier before cutting, and the rethread cuts the subassembly and cuts the system, and under the lower environment of temperature, the heating increases the viscidity of glutinous rice dough, reduces its dry loose possibility relatively, increases the glutinous rice dough of viscidity after the heating and can reduce the possibility that unqualified section of dough produced relatively when cutting the section of dough, just also need not the manual work again to carry out the choosing of a large amount of section of dough, reduces the waste of consuming of manpower and food relatively.

Description

Face segment forming device

Technical Field

The utility model relates to a wheaten food preparation technical field, concretely relates to face section forming device.

Background

Some wheaten foods need to be made into a plurality of noodle segments with the same size and shape, and for the production enterprises of the wheaten foods, manual noodle segment cutting is very labor-consuming, so most enterprises use a noodle segment forming machine to realize noodle segment cutting.

For the characteristics of the dough in the cold drying type, the dough is easy to dry and loose in a low-temperature environment, the dried and loosened dough is cut to generate a large number of small sections which do not conform to the size and shape, and the unqualified small sections need to be picked out, so that the labor consumption is caused, and the waste of food is increased.

Disclosure of Invention

In view of the above, there is a need for a surface segment forming apparatus that increases the heating manner and relatively reduces the number of defective surface segments.

The utility model provides a face section forming device, includes the support frame, sets up transport area, heater, cutter unit spare on the support frame, and heater and cutter unit spare set gradually along the direction of transportation in transport area, and both all are located directly over the transport area, and cutter unit spare sets up in the position that is close to the transport area end, and the heat of heater is aimed at the transport area and is gived off.

Preferably, the face section forming device is still including setting up the face subassembly of pressing at the conveyer belt top, the face subassembly of pressing is including finalizing the design casing, set up the inside face roller of pressing of finalizing the design casing, the pan feeding mouth has been seted up at the top of finalizing the design casing, the face roller of pressing aims at the pan feeding mouth setting, the face roller of pressing is two of relative setting, there is the clearance between two face rollers of pressing, this clearance is located the pan feeding mouth under, the dough gets into the clearance of two face rollers of pressing from the pan feeding mouth and passes, receive the face cake of the fixed width of the restriction pressfitting of design casing simultaneously.

Preferably, the noodle segment forming device further comprises a noodle scattering assembly arranged right above the conveying belt, the noodle scattering assembly is located between the heater and the cutter assembly, the noodle scattering assembly comprises a noodle scattering brush, a noodle flour bin, an auxiliary eccentric wheel, an eccentric rod and a main eccentric wheel, the noodle scattering brush is located inside the noodle flour bin, the noodle scattering brush and the auxiliary eccentric wheel are both located right above the conveying belt, the end of the noodle scattering brush is fixedly connected with the center of the auxiliary eccentric wheel, the edge of the auxiliary eccentric wheel is rotatably connected with one end of the eccentric rod, the other end of the eccentric rod is provided with a lantern ring, the lantern ring is sleeved on the main eccentric wheel, the main eccentric wheel is rotatably connected with the edge as a rotating shaft, the eccentric rod is driven to transversely reciprocate, and then the auxiliary eccentric wheel and the noodle scattering brush are driven to rotate around the reciprocating.

Preferably, the cutter assembly comprises a longitudinal cutter and a transverse cutter which are positioned right above the conveyor belt, the longitudinal cutter comprises a longitudinal cutting shaft and circular blades, the centers of the circular blades are fixedly connected with the longitudinal cutting shaft, the circular blades are uniformly arranged on the longitudinal cutting shaft in a preset number and are perpendicular to the longitudinal cutting shaft, and the longitudinal cutting shaft axially rotates to drive the circular blades to rotate; the transverse cutter comprises a transverse cutting shaft and long blades, the long blades are uniformly arranged on the transverse cutting shaft in a preset number, the transverse cutter is parallel to the transverse cutting shaft, and the transverse cutting shaft rotates to drive the long blades to revolve.

Preferably, the cutter assembly further comprises a longitudinal cutting driver and a transverse cutting driver, wherein the driving end of the longitudinal cutting driver is fixedly connected with the longitudinal cutting shaft, and the driving end of the transverse cutting driver is fixedly connected with the transverse cutting shaft.

Preferably, the noodle segment forming device further comprises a material receiving assembly arranged at the tail end of the conveying belt, the material receiving assembly comprises a sieve plate, a guide plate, a finished product collecting tank and a flour collecting tank, the sieve plate and the guide plate are arranged in an inclined mode, the highest point of the sieve plate is located under the tail end of the conveying belt, the lowest point of the sieve plate is located over the finished product collecting tank, and the highest point of the guide plate is located under the highest point of the sieve plate, and the lowest point of the guide plate is located over the flour collecting tank and under the lowest point of the sieve.

Preferably, the slitting knife is arranged close to the scattering surface assembly, and the driving end of the slitting driver is fixedly connected with the edge of the main eccentric wheel so as to drive the main eccentric wheel to rotate by taking the connecting part of the main eccentric wheel and the slitting driver as a rotating shaft.

Preferably, the dusting brush is perpendicular to the direction of movement of the conveyor belt.

Preferably, two opposite sides of the conveyer belt respectively extend upwards to form limiting plates, and the width of the flour cakes is limited by the limiting plates of the conveyer belt.

The utility model adopts the above technical scheme, its beneficial effect lies in: the glutinous rice dough is through the heater heating earlier before cutting, and the rethread cuts the subassembly and cuts the system, and under the lower environment of temperature, the heating increases the viscidity of glutinous rice dough, reduces its dry loose possibility relatively, increases the glutinous rice dough of viscidity after the heating and can reduce the possibility that unqualified section of dough produced relatively when cutting the section of dough, just also need not the manual work again to carry out the choosing of a large amount of section of dough, reduces the waste of consuming of manpower and food relatively.

Drawings

FIG. 1 is a schematic structural view of a face segment molding apparatus.

Fig. 2 is a schematic view of another angle structure of fig. 1.

Fig. 3 is a sectional view in one direction of fig. 1.

Fig. 4 is a partially enlarged view of a in fig. 3.

In the figure: the dough section forming device comprises a dough section forming device 10, a support frame 20, a conveying belt 30, a limiting plate 31, a heater 40, a cutter assembly 50, a longitudinal cutter 51, a longitudinal cutting shaft 511, a circular blade 512, a transverse cutter 52, a transverse cutting shaft 521, a long blade 522, a longitudinal cutting driver 53, a transverse cutting driver 54, a dough pressing assembly 60, a shaping shell 61, a feeding port 611, a dough pressing roller 62, a dough scattering assembly 70, a dough scattering brush 71, a flour bin 72, an auxiliary eccentric wheel 73, an eccentric rod 74, a main eccentric wheel 75, a material receiving assembly 80, a sieve plate 81, a guide plate 82, a finished product collecting tank 83 and a flour collecting tank 84.

Detailed Description

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Referring to fig. 1 to 4, an embodiment of the present invention provides a noodle segment forming device 10, which includes a support frame 20, a conveyor belt 30 disposed on the support frame 20, a heater 40, and a cutter assembly 50, wherein the heater 40 and the cutter assembly 50 are sequentially disposed along a conveying direction of the conveyor belt 30, and both are disposed right above the conveyor belt 30, the cutter assembly 50 is disposed at a position close to a terminal of the conveyor belt 30, and heat of the heater 40 is emitted toward the conveyor belt 30.

Further, the dough section forming device 10 further comprises a dough pressing assembly 60 arranged at the beginning of the conveying belt 30, the dough pressing assembly 60 comprises a shaping shell 61 and a dough pressing roller 62 arranged inside the shaping shell 61, a feeding port 611 is formed in the top of the shaping shell 61, the dough pressing roller 62 is aligned to the feeding port 611, the dough pressing rollers 62 are arranged oppositely, a gap exists between the two dough pressing rollers 62, the gap is located right below the feeding port 611, dough enters the gap between the two dough pressing rollers 62 from the feeding port 611 and penetrates through the gap, and meanwhile, the dough is pressed into a dough cake with a fixed width under the limitation of the shaping shell 61.

Further, the noodle segment forming device 10 further comprises a noodle spreading assembly 70 arranged right above the conveyer belt 30, the noodle spreading assembly 70 is positioned between the heater 40 and the cutter assembly 50, the noodle spreading assembly 70 comprises a noodle spreading brush 71, a flour bin 72, an auxiliary eccentric wheel 73, an eccentric rod 74 and a main eccentric wheel 75, the noodle spreading brush 71 is positioned inside the noodle powder bin 72, the noodle spreading brush and the noodle powder bin are both positioned right above the conveyer belt 30, the end of the noodle spreading brush 71 is fixedly connected with the center of the auxiliary eccentric wheel 73, the edge of the auxiliary eccentric wheel 73 is rotatably connected with one end of the eccentric rod 74, the other end of the eccentric rod 74 is provided with a sleeve ring, the sleeve ring is sleeved on the main eccentric wheel 75, the main eccentric wheel 75 is rotatably connected with the edge as a rotating shaft to drive the eccentric rod 74 to transversely reciprocate, and further drive the auxiliary eccentric wheel 73 and the noodle spreading brush 71 to rotate in a reciprocating mode within a preset. The flour spreading brush 71 is a brush.

Further, the cutter assembly 50 comprises a longitudinal cutter 51 and a transverse cutter 52 which are positioned right above the conveyor belt 30, the longitudinal cutter 51 comprises a longitudinal cutting shaft 511 and circular blades 512, the centers of the circular blades 512 are fixedly connected with the longitudinal cutting shaft 511, the circular blades 512 are provided with a predetermined number and are uniformly arranged on the longitudinal cutting shaft 511, the circular blades 512 are vertical to the longitudinal cutting shaft 511, and the longitudinal cutting shaft 511 rotates axially to drive the circular blades 512 to rotate; the transverse cutter 52 comprises a transverse cutting shaft 521 and long blades 522, a predetermined number of the long blades 522 are uniformly arranged on the transverse cutting shaft 521, the transverse cutter 52 is parallel to the transverse cutting shaft 521, and the transverse cutting shaft 521 rotates to drive the long blades 522 to revolve.

Further, the cutter assembly 50 further includes a longitudinal cutting driver 53 and a transverse cutting driver 54, wherein a driving end of the longitudinal cutting driver 53 is fixedly connected with the longitudinal cutting shaft 511, and a driving end of the transverse cutting driver 54 is fixedly connected with the transverse cutting shaft 521. Both the slitting drive 53 and the crosscutting drive 54 are motors.

Further, the noodle segment forming device 10 further comprises a material receiving assembly 80 arranged at the end close to the conveyor belt 30, the material receiving assembly 80 comprises a sieve plate 81, a guide plate 82, a finished product collecting groove 83 and a flour collecting groove 84, the sieve plate 81 and the guide plate 82 are both obliquely arranged, the highest point of the sieve plate 81 is located under the end of the conveyor belt 30, the lowest point of the sieve plate 81 is located over the finished product collecting groove 83, the highest point of the guide plate 82 is located under the highest point of the sieve plate 81, and the lowest point of the guide plate 82 is located over the flour collecting groove 84 and under the lowest point of the sieve plate 81.

Further, the slitting knife 51 is disposed close to the scattering surface assembly 70, and the driving end of the slitting driver 53 is further fixedly connected with the edge of the main eccentric wheel 75, so as to drive the main eccentric wheel 75 to rotate by taking the connection position of the main eccentric wheel 75 and the slitting driver 53 as a rotating shaft. The spreading assembly 70, the slitting knife 51 and the cross cutting knife 52 are arranged in sequence along the moving direction of the conveyer belt 30.

Further, the flour spreading brush 71 is perpendicular to the moving direction of the conveyor belt 30.

Further, two opposite sides of the conveyer belt 30 are respectively extended upwards to form a limiting plate 31, and the dough cake is limited in width by the limiting plates 31 of the conveyer belt 30.

Further, the width of the shaping shell 61 is equal to the distance between the two limiting plates 31, the shaping shell 61 and the limiting plates 31 are matched to limit the dough to be in a preset width, and the uniformity of the shape and the size of the cut dough segments is further improved.

Further, the heaters 40 are heating lamp tubes, and the number of the heaters is 3-5.

When the device is used specifically, flour is manually placed into a flour bin 72, a conveying belt 30, flour pressing rollers 62, a heater 40, a longitudinal cutting driver 53 and a transverse cutting driver 54 are started, the well-mixed glutinous rice dough is placed into a gap between the two flour pressing rollers 62 from a feeding port 611, the flour pressing rollers 62 press the glutinous rice dough into glutinous rice flour cakes with preset width, the conveying belt 30 conveys the glutinous rice flour cakes to pass through the position right below the heater 40 for heating, the viscosity of the glutinous rice flour is increased, then the glutinous rice flour cakes are conveyed to pass through the position right below the flour bin 72, a flour spreading brush 71 rotates in a reciprocating mode to drive the flour in the flour bin 72 to fall to the position above the glutinous rice flour cakes, the conveying belt 30 continuously conveys the glutinous rice flour cakes to pass through a longitudinal cutter 51 and a transverse cutter 52, the longitudinal cutter 51 cuts the glutinous rice flour cakes into glutinous rice noodles, the transverse strip-shaped cutter 52 cuts the glutinous rice noodles into glutinous rice noodles, the glutinous rice noodles drop onto a sieve plate 81 along the tail end of the conveying belt 30, and slides along the sieve plate 81 to the finished product collecting tank 83, and meanwhile, the flour on the polished glutinous rice flour section passes through the sieve plate 81 and falls into the flour collecting tank 84, and the polished glutinous rice flour section is cut. The flour in the flour collection tank 84 can be recycled for the second time.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

Claims

1. A face section forming device is characterized in that: including support frame, the transportation area of setting on the support frame, heater, cutter unit spare, heater and cutter unit spare set gradually along the direction of transportation in transportation area, and both all are located the transportation directly over area, and cutter unit spare sets up in the position that is close to the transportation area end, and the heat of heater is aimed at the transportation area and is gived off.

2. The face segment forming apparatus of claim 1, wherein: still including setting up the dough pressing subassembly at the transport belt top, the dough pressing subassembly is including the design casing, set up at the inside dough pressing roller of design casing, the pan feeding mouth has been seted up at the top of design casing, the dough pressing roller aims at the pan feeding mouth setting, the dough pressing roller is two of relative setting, there is the clearance between two dough pressing rollers, this clearance is located the pan feeding mouth under, the dough gets into the clearance of two dough pressing rollers and passes from the pan feeding mouth, receive the dough cake of the fixed width of design casing restriction suppression simultaneously.

3. The face segment forming apparatus of claim 2, wherein: still including setting up the face subassembly that spills directly over the transportation area, spill the face subassembly and be located between heater and the cutter subassembly, spill the face subassembly including spilling the face brush, the face storehouse is whitewashed, assist the eccentric wheel, the eccentric rod, main eccentric wheel, spill the inside that the face brush is located the face storehouse, and both all are located the transportation area directly over, spill the tip of face brush and assist the center fixed connection of eccentric wheel, the edge of assisting the eccentric wheel rotates with the one end of eccentric rod to be connected, the other end of eccentric rod is provided with the lantern ring, the lantern ring cover is established on main eccentric wheel, and both rotate to be connected, main eccentric wheel uses the edge to rotate as the rotation axis, drive the horizontal reciprocating motion of eccentric rod, and then drive assist the eccentric wheel and spill the face brush and rotate at the reciprocating shaft.

4. The face segment forming apparatus of claim 3, wherein: the cutter assembly comprises a longitudinal cutter and a transverse cutter which are positioned right above the conveyor belt, the longitudinal cutter comprises a longitudinal cutting shaft and circular blades, the centers of the circular blades are fixedly connected with the longitudinal cutting shaft, the circular blades are provided with a preset number and are uniformly arranged on the longitudinal cutting shaft, the circular blades are perpendicular to the longitudinal cutting shaft, and the longitudinal cutting shaft axially rotates to drive the circular blades to rotate; the transverse cutter comprises a transverse cutting shaft and long blades, the long blades are uniformly arranged on the transverse cutting shaft in a preset number, the transverse cutter is parallel to the transverse cutting shaft, and the transverse cutting shaft rotates to drive the long blades to revolve.

5. The face segment forming apparatus of claim 4, wherein: the cutter component also comprises a longitudinal cutting driver and a transverse cutting driver, wherein the driving end of the longitudinal cutting driver is fixedly connected with the longitudinal cutting shaft, and the driving end of the transverse cutting driver is fixedly connected with the transverse cutting shaft.

6. The face segment forming apparatus of claim 5, wherein: the collecting assembly comprises a sieve plate, a guide plate, a finished product collecting tank and a flour collecting tank, the sieve plate and the guide plate are all obliquely arranged, the highest point of the sieve plate is located under the tail end of the conveyer belt, the lowest point of the sieve plate is located over the finished product collecting tank, and the highest point of the guide plate is located under the highest point of the sieve plate, and the lowest point of the guide plate is located over the flour collecting tank and under the lowest point of the sieve plate.

7. The face segment forming apparatus of claim 6, wherein: the longitudinal cutter is arranged close to the surface scattering assembly, and the driving end of the longitudinal cutting driver is fixedly connected with the edge of the main eccentric wheel so as to drive the main eccentric wheel to rotate by taking the joint of the main eccentric wheel and the longitudinal cutting driver as a rotating shaft.

8. The face segment forming apparatus of claim 7, wherein: the spreading brush is perpendicular to the moving direction of the conveying belt.

9. The face segment forming apparatus of claim 8, wherein: the two opposite sides of the conveyer belt extend upwards to form limiting plates respectively, and the flour cakes are limited in width by the limiting plates of the conveyer belt.