CN213029620U - Noodle press with transportation function - Google Patents

Abstract

A dough press with a transportation function relates to the technical field of dough pressing equipment and comprises a dough pressing device and a section transportation device arranged near one end of the dough pressing device, wherein the section transportation device comprises a transportation roller assembly and a section cutter assembly arranged near one end of the transportation roller assembly; the cutter moves towards one end far away from the noodle pressing device, so that the noodle pressing device continues to press noodles. The section transportation device is matched with the noodle pressing device to directly transport the pressed noodle; even the face that quantity and quality are all great also can transport through section conveyer, reduces the waste of manpower and time relatively.

Description

Noodle press with transportation function

Technical Field

The utility model relates to a dough pressing equipment technical field, concretely relates to dough pressing machine with transportation function.

Background

The noodle pressing process is a necessary process in the wheaten food making industry, and for enterprises making a large amount of wheaten food, the manual noodle pressing mode is very labor-consuming and time-consuming, so most wheaten food making enterprises can select the noodle pressing machine to press the noodles.

However, the pressed noodles need to be transported to the next process, most of the noodle presses only have a single noodle pressing function, the transportation of the pressed noodles is in a way of transporting the noodles directly by manual transportation, and for wheaten food manufacturing enterprises, the manual noodle transporting way also wastes manpower and time in order to improve efficiency and yield and ensure that the quantity and quality of the pressed noodles in a fixed time are large.

Disclosure of Invention

In view of the above, it is desirable to provide a noodle press with a transportation function that can transport noodles without manual handling.

A dough press with a transportation function comprises a dough pressing device and a section transportation device arranged close to one end of the dough pressing device, wherein the section transportation device comprises a transportation roller assembly and a section cutter assembly arranged close to one end of the transportation roller assembly; the cutter moves towards one end far away from the noodle pressing device, so that the noodle pressing device continues to press noodles.

Preferably, the flour pressing device comprises a support frame, a guide panel arranged on the support frame, two flour pressing rollers arranged oppositely and a re-pressing belt, wherein the guide panel is positioned above the flour pressing rollers, one end of the guide panel is aligned between the two flour pressing rollers, so that the flour on the guide panel slides to the position between the two flour pressing rollers along the guide panel to be pressed, one part of the re-pressing belt is arranged right below the flour pressing rollers, the other part of the re-pressing belt is parallel to the flour pressing rollers, the end part of the part is close to the flour pressing rollers, the re-pressing belt conveys the flour pressed by the flour pressing rollers to the flour pressing rollers again for re-pressing, the flour pressing rollers and the re-pressing belt form a closed loop, and the flour pressing rollers and the re-pressing belt are matched to perform repeated pressing on the flour.

Preferably, the profiling cutter assembly is located above the conveyor roller assembly; the conveying roller assembly comprises a frame and a conveying roller shaft which is rotatably connected with the frame, the conveying roller shaft is a predetermined number and is uniformly arranged on the frame, the frame is fixed relative to a supporting frame, one end of the frame is arranged under the frame and close to the dough pressing roller, the distance between the frame and the dough pressing roller is larger than the thickness of the dough, and a sliding block is connected with the frame in a sliding manner so as to drive a cutter to move towards the direction under the dough pressing roller or away from the direction under the dough pressing roller.

Preferably, the cutting edge of the cutter is positioned below the dough pressing roller, and the cutter is driven by the slide block to move to the position right below the dough pressing roller so as to cut off the finished dough pressed on the dough pressing roller and enable the cut-off dough to slide along the upper surface of the cutter onto the conveying roller shaft for conveying.

Preferably, the conveying roller assembly further comprises a connecting block, a sliding groove is formed in the connecting block, the sliding block is embedded into the sliding groove, and the sliding block is connected with the connecting block in a sliding mode.

Preferably, the section knife tackle spare still includes helping hand elastic component, the one end and slider fixed connection, the other end and the connecting block fixed connection of helping hand elastic component, and when the cutter removed under the pressure face roller, the elastic deformation did not take place for the helping hand elastic component, and when the cutter removed and kept away from the pressure face roller, the helping hand elastic component was elastic state.

Preferably, the section knife tackle spare still includes the dead lever, has seted up first fixed orifices on the slider, has seted up the second fixed orifices on the connecting block, and the slider removes to the direction of keeping away from under the pressure face roller, and compression helping hand elastic component when removing to first fixed orifices and the coaxial concentric time of second fixed orifices, uses the dead lever to pass first fixed orifices, second fixed orifices in proper order with slider and connecting block relatively fixed.

Preferably, the profile cutter assembly further comprises a handle fixedly connected with the slider so as to facilitate pushing and pulling the slider by using the handle.

Preferably, the section conveyer still includes the conveyer belt subassembly, and the conveyer belt subassembly includes link, conveyer belt, link and support frame fixed connection, and the frame is fixed on the link, and the conveyer belt sets up on the link, and the one end of conveyer belt is close to the other end setting of conveyer roller subassembly to make face on the conveyer roller subassembly remove to the conveyer belt on along the conveyer roller axle and transport.

The utility model adopts the above technical scheme, its beneficial effect lies in: the section transportation device is matched with the noodle pressing device to directly transport the pressed noodle; after the face is pressed to the pressure face device, the slider that slides drives the cutter and cuts off the face that is pressing good in the pressing process, makes the face disconnection and transports along conveying roller subassembly, and the transportation process after the pressure face does not need the manual work to transport the face through the mode of transport again, even the equal great face of quantity and quality also can transport through section conveyer, reduces the waste of manpower and time relatively.

Drawings

Fig. 1 is a schematic structural diagram of a noodle press with a transportation function.

Fig. 2 is a partially enlarged view of a in fig. 1.

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

Fig. 4 is a sectional view in another direction of fig. 1.

Fig. 5 is a partially enlarged view of B in fig. 4.

Fig. 6 is a schematic structural view of the cross-sectional transportation device.

Fig. 7 is a partial enlarged view of C in fig. 6.

FIG. 8 is a schematic view of the structure of the cutter assembly except for the fixing rod.

In the figure: the noodle press comprises a noodle press 10 with a conveying function, a noodle press device 20, a support frame 21, a guide panel 22, a noodle press roller 23, a double pressing belt 24, a guide roller 25, a section conveying device 30, a conveying roller assembly 31, a frame 311, a conveying roller shaft 312, a connecting block 313, a section cutter assembly 32, a sliding block 321, a first fixing hole 3211, a cutter 322, a power-assisted elastic element 323, a fixing rod 324, a handle 325, a conveying belt assembly 33, a connecting frame 331 and a conveying belt 332.

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 8, an embodiment of the present invention provides a noodle press 10 with a transportation function, including a noodle press 20 and a section transportation device 30 disposed near one end of the noodle press 20, wherein the section transportation device 30 includes a transportation roller assembly 31 and a section knife assembly 32 disposed near one end of the transportation roller assembly 31, the section knife assembly 32 includes a slider 321 and a knife 322, the slider 321 is slidably connected to the transportation roller assembly 31, the knife 322 is fixed on the slider 321, the knife 322 is driven by the slider 321 to move toward one end near or far from the noodle press 20, the knife 322 slides toward one end near the noodle press 20 to cut off the pressed noodle by the noodle press 20, and the noodle is transported by the transportation roller assembly 31; the cutter 322 moves to the end far away from the noodle pressing device 20, so that the noodle pressing device 20 continues to press noodles.

Further, the flour pressing device 20 includes a supporting frame 21, a guide panel 22 disposed on the supporting frame 21, two flour pressing rollers 23 disposed opposite to each other, and a re-pressing belt 24, the guide panel 22 is disposed above the flour pressing rollers 23, and one end of the guide panel 22 is aligned between the two flour pressing rollers 23, so that the flour on the guide panel 22 slides along the guide panel 22 to be pressed between the two flour pressing rollers 23, a portion of the re-pressing belt 24 is disposed directly below the flour pressing rollers 23, and the portion of the re-pressing belt 24 is disposed obliquely, one end of the portion close to the flour pressing rollers 23 is the lowest point, one end of the portion far away from the flour pressing rollers 23 is the highest point, the other portion of the re-pressing belt 24 is parallel to the flour pressing rollers 23, and one end of the portion of the re-pressing belt 24 is disposed close to the flour pressing rollers 23, the flour pressing rollers 23 transport the flour pressed by the re-pressing belt 24 to the flour pressing rollers 23 again for re-pressing, the flour pressing rollers 23 and the re-pressing belt 24 form, the two are matched to repeatedly press the dough, that is, the dough pressed by the dough pressing roller 23 falls on the re-pressing belt 24 from the dough pressing roller 23 by gravity, and is driven by the re-pressing belt 24 to move to the dough pressing roller 23 for re-pressing. The guide plate 22 is inclined and has a smooth surface.

Further, the cutter assembly 32 is positioned above the conveyor roller assembly 31; the conveying roller assembly 31 comprises a frame 311 and conveying roller shafts 312 rotatably connected with the frame 311, the conveying roller shafts 312 are uniformly arranged on the frame 311 in a predetermined number, the frame 311 is fixed relative to the supporting frame 21, one end of the frame 311 is arranged close to the position right below the dough pressing roller 23, the distance between the frame 311 and the dough pressing roller 23 is larger than the thickness of the dough, and the sliding blocks 321 are slidably connected with the frame 311 to drive the cutter 322 to move towards the direction close to or far away from the position right below the dough pressing roller 23. The frame 311 is arranged obliquely, one end of the frame 311 close to the right lower part of the dough pressing roller 23 is the highest point, and the cutter 322 is parallel to the frame 311.

Further, the cutting edge of the cutter 322 is located below the dough pressing roller 23, and the cutter 322 is driven by the slider 321 to move to a position right below the dough pressing roller 23 so as to cut off the pressed surface on the dough pressing roller 23, and the cut surface slides along the upper surface of the cutter 322 onto the transportation roller shaft 312 for transportation. The distance between the cutter 322 and the dough pressing roller 23 is 0.3-0.5 cm, and the width of the cutter 322 is larger than the distance between the frame 311 and the dough pressing roller 23. The upper surface of the cutter 322 is smooth.

Further, the transportation roller assembly 31 further comprises a connecting block 313, a sliding groove is formed in the connecting block 313, the sliding block 321 is embedded into the sliding groove, and the sliding block 321 is connected with the connecting block 313 in a sliding mode.

Further, the section knife assembly 32 further comprises an assisting elastic element 323, one end of the assisting elastic element 323 is fixedly connected with the sliding block 321, the other end of the assisting elastic element 323 is fixedly connected with the connecting block 313, when the cutter 322 moves to the position right below the dough pressing roller 23, the assisting elastic element 323 does not generate elastic deformation, and when the cutter 322 moves to be far away from the dough pressing roller 23, the assisting elastic element 323 generates elastic deformation.

Further, the section knife assembly 32 further includes a fixing rod 324, a first fixing hole 3211 is formed in the sliding block 321, a second fixing hole is formed in the connecting block 313, the sliding block 321 moves towards a direction away from the position right below the dough pressing roller 23, and when the compression assisting elastic element moves to the position where the first fixing hole 3211 and the second fixing hole are coaxial and concentric, the fixing rod 324 sequentially penetrates through the first fixing hole 3211 and the second fixing hole to fix the sliding block 321 and the connecting block 313 relatively. Securing lever 324 is a pin.

Further, the profiler assembly 32 further comprises a handle 325, and the handle 325 is fixedly connected with the slider 321 so as to facilitate the handle 325 to be used for pushing and pulling the slider 321. The distance between the handle 325 and the dough pressing roller 23 is 5-10 cm.

Further, the section transportation device 30 further comprises a transportation belt assembly 33, the transportation belt assembly 33 comprises a connecting frame 331 and a transportation belt 332, the connecting frame 331 is fixedly connected with the supporting frame 21, the frame 311 is fixed on the connecting frame 331, the transportation belt 332 is arranged on the connecting frame 331, one end of the transportation belt 332 is arranged close to the other end of the transportation roller assembly 31, so that the surface on the transportation roller assembly 31 moves along the transportation roller shaft 312 to the transportation belt 332 for transportation.

Further, the dough pressing device 20 further comprises a guide roller 25, the guide roller 25 is arranged close to the cutter 322, the guide roller 25 is positioned right below one dough pressing roller 23, and the lower surface of the cutter 322 is tangent to the upper surface of the guide roller 25. The distance between the guide roller 25 and the dough roller 23 is greater than the thickness of the dough.

Further, two sliding blocks 321, two connecting blocks 313, two boosting elastic members 323 and two fixing rods 324 are arranged respectively, the sliding blocks 321, the connecting blocks 313, the boosting elastic members 323 and the fixing rods 324 are arranged on the opposite sides of the frame 311, and one sliding block 321, one connecting block 313, one boosting elastic member 323 and one fixing rod 324 are arranged on one side of the frame 311. The opposite ends of the cutter 322 are fixedly connected with the two sliding blocks 321, respectively, and the opposite ends of the handle 325 are also fixedly connected with the two sliding blocks 321, respectively.

Furthermore, the elastic assisting element 323 is a spring, the elastic assisting element 323 can provide elastic force for the sliding block 321, so that the cutter 322 moves fast in the direction close to the dough pressing roller 23, the force of the cutting surface of the cutter 322 is increased, the possibility that the cutting surface is completely cut off is improved, and after the cutter 322 cuts off the cutting surface, the elastic assisting element 323 can position the sliding block 321, so that the sliding block 321 is prevented from returning and moving in the process of transporting the cutting surface.

Further, the operation of the dough pressing roller 23, the re-pressing belt 24 and the conveying belt 332 is completed by using a motor.

When the device is used specifically, an operator turns on all the motors, places the well-blended surface on the guide panel 22, slides the surface to between the two flour pressing rollers 23 along the guide panel 22, presses the surface by the flour pressing rollers 23, falls the surface pressed for one time onto the re-pressing belt 24 under the action of gravity, is driven by the re-pressing belt 24 to move to the flour pressing rollers 23 again, is pressed for the second time by the flour pressing rollers 23, repeatedly presses the flour pressing rollers 23 and the re-pressing belt 24 in the above way in a matching way, after judging that the surface pressed by the flour pressing device 20 meets the requirements according to experience, holds the handle 325 to apply tension, pulls out the two fixing rods 324, releases the handle 325, slides the sliding block 321 under the elastic force of the assisting elastic piece 323 to drive the cutter 322 to move towards the direction close to the flour pressing rollers 23, and cuts off the surface right below the flour pressing rollers 23 from the gap between the flour pressing rollers 23 and the guide roller 25 by the cutter 322, so that the surface slides to the transportation rollers along the upper surface of the cutter 322, the conveying roller rotates to be conveyed to the conveying belt 332 to be conveyed away, after the conveying is finished, an operator holds the handle 325 to apply tension, pulls the cutter 322 away from the dough pressing roller 23 until the first fixing hole 3211 and the second fixing hole are coaxial and concentric, and then sequentially inserts the fixing rod 324 into the first fixing hole 3211 and the second fixing hole to fix the section cutter assembly 32 relative to the conveying roller assembly 31, so that the surface pressed by the dough pressing roller 23 falls onto the re-pressing belt 24 from the gap between the frame 311 and the dough pressing roller 23 to be repeatedly pressed.

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 (9)

1. The utility model provides a oodle maker with transportation function which characterized in that: the section conveying device comprises a conveying roller assembly and a section cutter assembly arranged close to one end of the conveying roller assembly, the section cutter assembly comprises a sliding block and a cutter, the sliding block is in sliding connection with the conveying roller assembly, the cutter is fixed on the sliding block, the cutter is driven by the sliding block to move towards one end close to or far away from the pressing device, the cutter slides towards one end close to the pressing device to cut off the surface pressed by the pressing device, and the surface is conveyed by the conveying roller assembly; the cutter moves towards one end far away from the noodle pressing device, so that the noodle pressing device continues to press noodles.

2. A noodle press with transport function as claimed in claim 1, characterized in that: the dough pressing device comprises a support frame, a guide panel arranged on the support frame, two opposite dough pressing rollers and a re-pressing belt, wherein the guide panel is positioned above the dough pressing rollers, one end of the guide panel is aligned between the two dough pressing rollers, so that the dough on the guide panel slides to the position between the two dough pressing rollers along the guide panel to be pressed, one part of the re-pressing belt is arranged right below the dough pressing rollers, the other part of the re-pressing belt is parallel to the dough pressing rollers, the end part of the part is close to the dough pressing rollers, the re-pressing belt conveys the pressed dough of the dough pressing rollers to the positions of the dough pressing rollers again to be re-pressed, the dough pressing rollers and the re-pressing belt form a closed loop, and the dough is repeatedly pressed by matching of the two rollers.

3. A noodle press with transport function as claimed in claim 2, characterized in that: the section cutter assembly is positioned above the conveying roller assembly; the conveying roller assembly comprises a frame and a conveying roller shaft which is rotatably connected with the frame, the conveying roller shaft is a predetermined number and is uniformly arranged on the frame, the frame is fixed relative to a supporting frame, one end of the frame is arranged under the frame and close to the dough pressing roller, the distance between the frame and the dough pressing roller is larger than the thickness of the dough, and a sliding block is connected with the frame in a sliding manner so as to drive a cutter to move towards the direction under the dough pressing roller or away from the direction under the dough pressing roller.

4. A noodle press with transport function as claimed in claim 3, characterized in that: the cutting edge of the cutter is positioned below the dough pressing roller, the cutter is driven by the sliding block to move to the position right below the dough pressing roller so as to cut off the pressed dough on the dough pressing roller, and the cut dough slides to the conveying roller shaft along the upper surface of the cutter to be conveyed.

5. The noodle press with transportation function as claimed in claim 4, characterized in that: the conveying roller assembly further comprises a connecting block, a sliding groove is formed in the connecting block, the sliding block is embedded into the sliding groove, and the sliding block is connected with the connecting block in a sliding mode.

6. The noodle press with transportation function as claimed in claim 5, wherein: the section knife tackle spare still includes helping hand elastic component, the one end and slider fixed connection, the other end and the connecting block fixed connection of helping hand elastic component, and when the cutter removed under the pressure face roller, the elastic deformation did not take place for the helping hand elastic component, and when the cutter removed and kept away from the pressure face roller, the helping hand elastic component was elastic state.

7. The noodle press with transportation function as claimed in claim 6, wherein: the section knife tackle spare still includes the dead lever, first fixed orifices has been seted up on the slider, the second fixed orifices has been seted up on the connecting block, and the slider removes to keeping away from the direction under the pressure face roller, and compression helping hand elastic component when removing to first fixed orifices and the coaxial concentric time of second fixed orifices, uses the dead lever to pass first fixed orifices, second fixed orifices in proper order with slider and connecting block relatively fixed.

8. A noodle press with transport function as claimed in claim 7, characterized in that: the section knife assembly further comprises a handle, and the handle is fixedly connected with the sliding block so as to be convenient for pushing and pulling the sliding block by using the handle.

9. A noodle press with transport function as claimed in claim 8, characterized in that: the section conveyer still includes the conveyer belt subassembly, and the conveyer belt subassembly includes link, conveyer belt, link and support frame fixed connection, and the frame is fixed on the link, and the conveyer belt sets up on the link, and the one end of conveyer belt is close to the other end setting of conveyer roller subassembly to make the face on the conveyer roller subassembly remove to the conveyer belt on along the conveyer roller axle and transport.

Images