CN220037366U - Transmission structure of noodle press - Google Patents

Abstract

The utility model belongs to the technical field of food machinery transmission, and relates to a transmission structure of a noodle press, which comprises a frame base, a driving mechanism, fixed rollers, adjustable rollers and a transmission mechanism, wherein a frame support plate is fixedly connected to the frame base, the fixed rollers and the adjustable rollers are rotatably arranged on the frame support plate, the driving mechanism is connected with the fixed rollers so as to drive the fixed rollers to rotate, and the fixed rollers are connected with the adjustable rollers through the transmission mechanism so as to drive the adjustable rollers to rotate inwards relative to the fixed rollers. The utility model adopts the driving mechanism as a driving source to be matched with the transmission mechanism to drive the fixed roller and the adjustable roller to rotate inwards and relatively, so that dough is rolled into dough sheets by the two rollers, and the problem of overlarge noise is effectively solved by two-stage transmission.

Description

Transmission structure of noodle press

Technical Field

The utility model relates to the technical field of food machinery transmission, in particular to a transmission structure of a noodle press.

Background

The dough pressing machine is a food machine which can replace the traditional manual dough kneading after evenly stirring flour and water, can be used for making various kinds of dough, and is widely used as main equipment for commercial production of cooked wheaten food.

At present, most of transmission system structures of existing part of dough presses are in primary transmission, operation noise of the dough presses is large in working process, and hearing of operators is easily affected by noise of the dough presses in the production process.

Disclosure of Invention

In order to solve the technical problem of overlarge noise of the existing transmission machinery, the utility model provides a transmission structure of a noodle press.

The technical scheme of the utility model is realized by the following scheme: the utility model provides a oodle maker transmission structure, includes frame base, actuating mechanism, fixed roller, adjustable roller and drive mechanism, fixedly connected with frame extension board on the frame base, fixed roller and adjustable roller rotate and install on the frame extension board, actuating mechanism connects fixed roller to drive fixed roller and can rotate the motion, fixed roller passes through drive mechanism and connects adjustable roller, in order to drive adjustable roller and to rotate the motion inwards relative with fixed roller.

Through above technical scheme, actuating mechanism makes fixed roll rotation for the drive source drive, and effort passes through drive mechanism and drives adjustable roll motion, and actuating mechanism and drive mechanism cooperation have effectively reduced load inertia, drive two rolls and do relative inwards rotation motion, and the mechanical noise in the oodle maker working process is effectively reduced in the two-stage transmission.

Preferably, the rack support plate comprises a left bracket and a right bracket, and the fixed roller and the adjustable roller are rotatably arranged between the left bracket and the right bracket.

Through above technical scheme, the frame extension board plays support installation effect.

Preferably, the driving mechanism comprises a gear motor, a motor sprocket, a first transmission chain and a large transmission sprocket, wherein the motor sprocket is installed at the end part of the gear motor, the large transmission sprocket is connected with the motor sprocket through the engagement of the first transmission chain, and the large transmission sprocket is installed at one side part of the fixed roller.

Preferably, a second roller chain wheel is arranged on the symmetrical side of the large driving chain wheel on the fixed roller, a first roller chain wheel is arranged on the side part of the adjustable roller, and the second roller chain wheel is connected with the first roller chain wheel in a meshed mode through a driving mechanism.

Preferably, the right bracket is provided with a transmission mechanism, the transmission mechanism comprises a movable sprocket, a medium sprocket and a second transmission chain, the movable sprocket is rotatably arranged on the pulling plate combination, the medium sprocket is rotatably arranged on the right bracket, and the first roller sprocket, the second roller sprocket, the movable sprocket and the medium sprocket are all in meshed connection with the second transmission chain.

According to the technical scheme, the two-stage chain transmission of the gear motor, the chain wheel, the first transmission chain and the second transmission chain is adopted to drive the fixed roller and the adjustable roller to rotate inwards relatively, so that dough is rolled into dough sheets through the two rollers, the transmission structure is simple, and noise in the working process is greatly reduced due to the two-stage chain transmission; the chain transmission can keep accurate average transmission ratio, the required tension is small, the pressure acting on the shaft is also small, and the friction loss of the bearing can be reduced; the intermediate sprocket acts as a support Zhang Dier drive chain.

Preferably, the right support is fixedly connected with the pull plate combination, the pull plate combination comprises a pull plate welding part and a first tension spring, the pull plate welding part is fixedly connected with the right support, the movable sprocket is rotatably arranged on the pull plate welding part, the pull plate welding part is connected with one end of the first tension spring, and the other end of the first tension spring is connected with the right support.

Preferably, the right bracket is provided with a scraper fixing combination, the scraper fixing combination comprises a scraper, a fixing piece and a second tension spring, the scraper is connected with one end of the second tension spring through the fixing piece, and the other end of the second tension spring is connected with the right bracket.

Through above technical scheme, first extension spring and movable sprocket cooperation accomplish the regulation to the second drive chain in the drive mechanism, and the second extension spring makes the scraper blade have certain effort, makes the blade of scraper blade paste all the time on pressing the face roller, prevents that mechanical shock from making its skew.

Preferably, the tensioning mechanism is connected in an engaged mode through the first transmission chain, the tensioning mechanism comprises a tensioning plate welding part, a sliding groove and a tensioning chain wheel, the tensioning plate welding part is fixedly connected with a left support, the tensioning plate welding part is connected with the left support in a sliding mode through the sliding groove, the tensioning chain wheel is rotatably arranged on the tensioning plate welding part, and the tensioning chain wheel is connected with the first transmission chain in an engaged mode.

Through above technical scheme, installation straining device avoids the too big meshing that produces of first drive chain sag and the phenomenon of chain vibration, has increased the wrap angle of chain simultaneously, guarantees that the chain is too hard to break away from the wheel or bump or because the improper tooth damage that jumps because of the disturbance in the motion process.

In summary, the utility model has the following beneficial effects:

1. according to the utility model, the driving mechanism is used as a driving source to drive the fixed roller to rotate, the acting force drives the adjustable roller to move through the transmission mechanism, the driving mechanism is matched with the transmission mechanism, so that the load inertia is effectively reduced, the two rollers are driven to relatively and inwards rotate, and the mechanical noise in the working process of the noodle press is effectively reduced; the two-stage chain transmission of the gear motor, the chain wheel, the first transmission chain and the second transmission chain is adopted to drive the fixed roller and the adjustable roller to rotate inwards and relatively, so that dough is rolled into dough sheets through the two rollers, the transmission structure is simple, and the noise in the working process is greatly reduced due to the two-stage chain transmission; the chain transmission can keep accurate average transmission ratio, the required tension is small, the pressure acting on the shaft is also small, and the friction loss of the bearing can be reduced; the intermediate sprocket acts as a support Zhang Dier drive chain.

2. The first tension spring is matched with the movable chain wheel to complete the adjustment of a second transmission chain in the transmission mechanism, and the second tension spring enables the scraping plate to have a certain acting force, so that the cutting edge of the scraping plate is always attached to the surface pressing roller, and the deviation caused by mechanical vibration is prevented; the tensioning mechanism is arranged to avoid poor engagement and chain vibration caused by overlarge sagging of the first transmission chain, and meanwhile, the wrap angle of the chain is increased, so that the phenomenon that the chain passes through the synchronous belt in the movement process and is not separated from a wheel due to disturbance or collides or is damaged due to improper contact of jumping teeth is avoided.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic right side view of the structure of the present utility model;

FIG. 3 is a schematic left side view of the structure of the present utility model;

FIG. 4 is a schematic view of the A-A cut-away structure of the present utility model;

FIG. 5 is a schematic view of the B-B cut-away structure of the present utility model;

FIG. 6 is a schematic view of the C-C cut-away structure of the present utility model.

Reference numerals illustrate: 1. a frame base; 2. a driving mechanism; 21. a speed reducing motor; 22. a motor sprocket; 23. a first drive chain; 24. a large driving chain wheel; 3. fixing a roller; 4. an adjustable roller; 5. a transmission mechanism; 51. a movable sprocket; 52. a medium sprocket; 53. a second drive chain; 6. a first roller sprocket; 7. a second roller sprocket; 8. a tensioning mechanism; 81. welding the tensioning plate; 82. a chute; 83. tensioning the chain wheel; 9. a dielectric shaft; 10. a pulling plate combination; 101. welding the pulling plate; 102. a first tension spring; 11. a frame support plate; 111. a left bracket; 112. a right bracket; 12. the scraping plates are fixedly combined; 121. a scraper; 122. a fixing member; 123. and a second tension spring.

Description of the embodiments

In order that the above objects, features and advantages of the utility model will be more clearly understood, a further description of the utility model will be rendered by reference to the appended drawings and examples.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, however, the present utility model may be practiced otherwise than as described herein, and therefore the present utility model is not limited to the specific embodiments of the present disclosure, as described in further detail below with reference to the accompanying drawings.

1-6, comprising a frame base 1, a driving mechanism 2, fixed rollers 3, adjustable rollers 4 and a driving mechanism 5, wherein the frame base 1 is fixedly connected with a frame support plate 11, the fixed rollers 3 and the adjustable rollers 4 are rotatably arranged between the frame support plates 11, the driving mechanism 2 is connected with the fixed rollers 3 to drive the fixed rollers 3 to rotate, the fixed rollers 3 are connected with the adjustable rollers 4 through the driving mechanism 5 to drive the adjustable rollers 4 to rotate relative to the fixed rollers 3, the frame support plate 11 comprises a left bracket 111 and a right bracket 112, the fixed rollers 3 and the adjustable rollers 4 are rotatably arranged between the left bracket 111 and the right bracket 112, the adjustable rollers 4 are arranged above the fixed rollers 3, the driving mechanism 2 comprises a speed reducing motor 21, a motor sprocket 22, a first transmission chain 23 and a transmission large sprocket 24, the end part of the gear motor 21 is provided with a motor chain wheel 22, the motor chain wheel 22 is meshed with a large transmission chain wheel 24 through a first transmission chain 23, the large transmission chain wheel 24 is arranged on one side part of a fixed roller 3, a second roller chain wheel 7 is arranged on the symmetrical side of the large transmission chain wheel 24 on the fixed roller 3, a first roller chain wheel 6 is arranged on the side part of an adjustable roller 4, the second roller chain wheel 7 is connected with the first roller chain wheel 6 through a transmission mechanism 5, the load inertia is effectively reduced through the gear motor 21, the right bracket 112 is provided with the transmission mechanism 5, the transmission mechanism 5 comprises a movable chain wheel 51, a medium chain wheel 52 and a second transmission chain 53, the movable chain wheel 51 is rotatably arranged on a pull plate assembly 10, the medium chain wheel 52 is rotatably arranged on the right bracket 112, a medium wheel shaft 9 is fixed on the right bracket 112, the medium chain wheel 52 is arranged on the medium wheel shaft 9, the first roller chain wheel 6 is provided with a first roller chain wheel, the second roller chain wheel 7, the movable chain wheel 51 and the medium chain wheel 52 are all meshed with the second transmission chain 53, the second roller chain wheel 7 is meshed with the outer side of the second transmission chain 53, the first roller chain wheel 6, the movable chain wheel 51 and the medium chain wheel 52 are meshed with the inner side of the second transmission chain 53 so as to finish the relative inward movement of two rollers, the gear motor 21 is used as a driving source, the first transmission chain 23 drives the fixed roller 3 to rotate, the fixed roller 3 drives the adjustable roller 4 to rotate relative inward through the driving mechanism 5, the two-stage chain transmission is adopted to effectively reduce the mechanical noise in the working process of the noodle press, the chain transmission can keep accurate average transmission ratio, the required tension force is small, the pressure acting on a shaft is also small, and the friction loss of a bearing can be reduced.

The right bracket 112 is fixedly connected with the pull plate assembly 10, the pull plate assembly 10 comprises a pull plate welding 101 and a first tension spring 102, the pull plate welding 101 is fixedly connected with the right bracket 112, the movable chain wheel 51 is rotatably arranged on the pull plate welding 101, a small shaft is arranged on the pull plate welding 101, the movable chain wheel 51 is arranged on the small shaft, the pull plate welding 101 is connected with one end of the first tension spring 102, the other end of the first tension spring 102 is connected with the right bracket 112, the adjustable roller 4 can horizontally move, when the adjustable roller 4 moves, the first roller chain wheel 6 is driven to move, the length of the second transmission chain 53 is fixed, the second transmission chain 53 is regulated by the first tension spring 102 and the movable chain wheel 51, the medium chain wheel 52 plays a role of supporting the Zhang Dier transmission chain 53, a screw arranged on the pull plate welding 101 is connected with a screw arranged on the right bracket 112 through the first tension spring 102, the right bracket 112 is provided with the scraper fixing assembly 12, the scraper fixing combination 12 is symmetrically designed, the structure on the left bracket 112 is consistent with that on the right bracket 112, the scraper fixing combination 12 comprises a scraper 121, a fixing piece 122 and a second tension spring 123, the scraper 121 is connected with one end of the second tension spring 123 through the fixing piece 122, the other end of the second tension spring 123 is connected with the right bracket 112, the second tension spring 123 enables the feeding scraper 121 to have a certain acting force, the cutting edge of the scraper 121 is always stuck on the surface pressing roller to prevent the mechanical shock from deviating, the left bracket 111 is fixedly connected with the tensioning mechanism 8, the tensioning mechanism 8 is externally meshed with the first transmission chain 23, the tensioning mechanism 8 is fixedly connected with the left bracket 111, the tensioning mechanism 8 comprises a tensioning plate welding 81, a sliding groove 82 and a tensioning chain wheel 83, the tensioning plate welding 81 is fixedly connected with the left bracket 111 through the sliding groove 82, the tensioning chain wheel 83 is rotatably arranged on the tensioning plate welding 81, a small shaft is arranged on the tensioning plate welding 81, the tensioning chain wheel 83 is arranged on the small shaft, the tensioning chain wheel 83 is connected with the first transmission chain 23 in a meshed mode, the tensioning plate welding 81 slides to a proper position through the sliding groove 82 to be fixed to play a role in tensioning the first transmission chain 23, poor meshing and chain vibration caused by overlarge sagging of the first transmission chain 23 are avoided, meanwhile, the wrap angle of the chain is increased, and the phenomenon that the chain passes through the synchronous belt in the movement process and is prevented from being separated from a wheel or colliding or being damaged due to improper contact of jumping teeth is avoided.

Working principle: the dough is placed at a feed inlet, a gear motor 21 is used as a driving source, a motor chain wheel 22 drives a large driving chain wheel 24 through a first driving chain 23 to enable a fixed roller 3 to rotate so as to roll the dough in, a second roller chain wheel 7 on the other side of the fixed roller 3 drives a first roller chain wheel 6 through a driving mechanism 5 so as to enable an adjustable roller 4 to move inwards relative to the fixed roller 3, and dough pressing is completed, wherein the vibration of the first driving chain 23 can be reduced through a tensioning chain wheel 83 on a tensioning plate welding 81, and a movable chain wheel 51 arranged on a pulling plate combination 10 and a first tension spring 102 in the pulling plate combination 10 can adjust the second driving chain 53 so as to adapt to the movement of the adjustable roller 4.

The present utility model is not limited to the above-mentioned embodiments, and any equivalent embodiments which can be changed or modified by the technical content disclosed above can be applied to other fields, but any simple modification and equivalent changes to the above-mentioned embodiments according to the technical substance of the present utility model are still within the protection scope of the technical solution of the present utility model.

Claims (8)

1. The utility model provides a oodle maker transmission structure which characterized in that: including frame base (1), actuating mechanism (2), fixed roll (3), adjustable roll (4) and drive mechanism (5), fixedly connected with frame extension board (11) on frame base (1), fixed roll (3) and adjustable roll (4) rotate and install on frame extension board (11), fixed roll (3) are connected to actuating mechanism (2) to drive fixed roll (3) and can rotate, adjustable roll (4) are connected through drive mechanism (5) to fixed roll (3) to drive adjustable roll (4) and can rotate the motion inwards relative to fixed roll (3).

2. A sheeter drive structure as recited in claim 1, wherein: the stand support plate (11) comprises a left support (111) and a right support (112), and the fixed roller (3) and the adjustable roller (4) are rotatably arranged between the left support (111) and the right support (112).

3. A sheeter drive structure as recited in claim 2, wherein: the driving mechanism (2) comprises a gear motor (21), a motor chain wheel (22), a first transmission chain (23) and a transmission large chain wheel (24), wherein the motor chain wheel (22) is arranged at the end part of the gear motor (21), the motor chain wheel (22) is connected with the transmission large chain wheel (24) through the engagement of the first transmission chain (23), and the transmission large chain wheel (24) is arranged at one side part of the fixed roller (3).

4. A sheeter drive structure according to claim 3, wherein: the second roller chain wheel (7) is arranged on one symmetrical side of the large driving chain wheel (24) on the fixed roller (3), the first roller chain wheel (6) is arranged on the side part of the adjustable roller (4), and the second roller chain wheel (7) is connected with the first roller chain wheel (6) in a meshed mode through the driving mechanism (5).

5. The dough roller transmission structure of claim 4, wherein: be equipped with drive mechanism (5) on right branch frame (112), drive mechanism (5) are including movable sprocket (51), intermediate sprocket (52) and second drive chain (53), movable sprocket (51) rotate install on arm-tie combination (10), intermediate sprocket (52) rotate install on right branch frame (112), first roll sprocket (6), second roll sprocket (7), movable sprocket (51) and intermediate sprocket (52) all mesh connect second drive chain (53).

6. The dough roller transmission structure of claim 5, wherein: the right support (112) is fixedly connected with the pull plate assembly (10), the pull plate assembly (10) comprises a pull plate welding part (101) and a first tension spring (102), the pull plate welding part (101) is fixedly connected with the right support (112), the movable sprocket (51) is rotatably arranged on the pull plate welding part (101), the pull plate welding part (101) is connected with one end of the first tension spring (102), and the other end of the first tension spring (102) is connected with the right support (112).

7. A sheeter drive structure as recited in claim 2, wherein: the right support (112) is provided with a scraper fixing combination (12), the scraper fixing combination (12) comprises a scraper (121), a fixing piece (122) and a second tension spring (123), the scraper (121) is connected with one end of the second tension spring (123) through the fixing piece (122), and the other end of the second tension spring (123) is connected with the right support (112).

8. A sheeter drive structure according to claim 3, wherein: the left support (111) fixed connection straining device (8), straining device (8) are including tensioning board seam (81), spout (82) and tensioning sprocket (83), tensioning board seam (81) pass through spout (82) fixed connection left support (111), tensioning sprocket (83) rotate and install on tensioning board seam (81), tensioning sprocket (83) meshing is connected first drive chain (23).