CN106509008B

CN106509008B - Noodle press capable of automatically adjusting extrusion gap

Info

Publication number: CN106509008B
Application number: CN201611232962.5A
Authority: CN
Inventors: 方宁; 钟造胜; 邱明海
Original assignee: Foshan Polytechnic
Current assignee: Foshan Polytechnic
Priority date: 2016-12-28
Filing date: 2016-12-28
Publication date: 2019-12-13
Anticipated expiration: 2036-12-28
Also published as: CN106509008A

Abstract

The invention discloses a noodle press capable of automatically adjusting an extrusion gap, which comprises a left cover plate, a left support plate, a right cover plate, a left transmission box, a worm and gear transmission box, a right transmission box, a rolling transmission system and an extrusion gap adjusting mechanism, wherein the rolling transmission system is arranged on the left support plate and the right support plate, two sides of the rolling transmission system are respectively protected by the left cover plate and the right cover plate, and the extrusion gap adjusting mechanism is fixed on the left support plate and the right support plate through a mounting plate. The left transmission case and the right transmission case are fixed on the mounting plate and used for fixing the bevel gears and the transmission screw rods on two sides, the terminal of the equipment is provided with a man-machine operation interface for storing data, a user can select processing parameters according to the type of a produced product, the variable frequency speed control of the power motor can be realized in the working process, and the manual or automatic adjustment of the extrusion gap can be met.

Description

noodle press capable of automatically adjusting extrusion gap

Technical Field

The invention relates to a noodle press capable of automatically adjusting an extrusion gap, in particular to an extrusion type wheaten food production machine.

Background

At present, the existing noodle press production equipment has many defects. Firstly, in structural aspect; the existing mechanical equipment consists of a left cover plate, a left support plate, a right cover plate, an upper rolling wheel, a lower rolling wheel, a manual gap adjusting mechanism, a speed reducer and a power motor, wherein the speed of the rolling wheel needs to be adjusted and changed manually by an operator according to the condition of cooked wheaten food processed on site, which is not beneficial to large-scale production and processing; when the type of the cooked wheaten food is changed, the gap between the upper roller and the lower roller needs to be changed manually by an operator, good difference of products is often caused due to different workers, the quality of the products is not only influenced, but also a great amount of waste of human resources on a production site is caused.

Disclosure of Invention

Aiming at the technical defects, the invention provides the noodle press, the final end of which is provided with a man-machine operation interface for storing data, a user can select processing parameters according to the type of a produced product, and the noodle press can automatically adjust the extrusion gap while realizing the frequency conversion speed control of a power motor in the working process.

In order to achieve the purpose, the invention is realized by the following technical scheme:

The utility model provides a can automatic adjustment extrusion clearance's oodle maker, includes left apron, left extension board, right apron, left transmission case, worm gear transmission case, right transmission case, roll extrusion transmission system and extrusion clearance guiding mechanism, roll extrusion transmission system install left extension board and right extension board on, both sides respectively by left apron and right apron protect, extrusion clearance guiding mechanism pass through the mounting panel and fix left extension board and right extension board on. The left transmission case and the right transmission case are fixed on the mounting plate and used for fixing bevel gears and transmission screw rods on two sides, and the worm and gear transmission case is mounted on the mounting plate and used for mounting a servo motor, a worm wheel and a worm.

Further, the rolling transmission system comprises an upper rolling wheel, a lower rolling wheel, a first V-shaped belt wheel, a V-shaped belt, a second V-shaped belt wheel, a power motor, a first chain wheel, a chain, a second chain wheel, a first transmission gear, a second transmission gear and a first fixed shaft, wherein the upper rolling wheel is arranged above the lower rolling wheel, the first V-shaped belt wheel is arranged on the left side of the lower rolling wheel, the V-shaped belt is connected to the first V-shaped belt wheel, the second V-shaped belt wheel is arranged on the power motor, the power motor drives the V-shaped belt through the first V-shaped belt wheel and then drives the second V-shaped belt wheel to drive the lower rolling wheel, the lower rolling wheel drives the second transmission gear arranged on the first fixed shaft through the first transmission gear to drive the second chain wheel and then drive the chain to drive the first chain wheel to realize the upper rolling wheel The rolling wheels and the lower rolling wheels move in the same speed direction.

Furthermore, the extrusion gap adjusting mechanism consists of a mounting plate, a servo motor, a worm wheel, a right transmission slide block, a left transmission slide block, a first bearing, a second bearing, a left transmission screw rod, a first sector gear, a second sector gear, a worm, a third sector gear, a fourth sector gear and a right transmission screw rod, wherein the upper rolling wheel is positioned in front of the mounting plate, the servo motor is arranged in the middle of the rear part of the mounting plate, the lower part of the servo motor is connected with the worm wheel, the worm is positioned below the worm wheel and is matched and connected with the worm wheel, the second sector gear and the third sector gear are positioned at two ends of the worm, the second sector gear is matched and connected with the first sector gear, the third sector gear is matched and connected with the fourth sector gear, the left transmission screw rod is connected with the first sector gear, the right transmission screw rod is connected with the fourth sector gear, one end of the left transmission screw rod extends into the left transmission slide block, one end of the right transmission screw rod extends into the right transmission slide block, the second bearing is installed in the left transmission slide block, the first bearing is installed in the right transmission slide block, the servo motor drives the worm through the worm wheel, the worm selects to drive the second sector gear and the third sector gear which are installed at the tail end of the worm, the second sector gear and the first sector gear are matched to drive the left transmission screw rod, the left transmission screw rod drives the left transmission slide block, the third sector gear and the fourth sector gear are matched to drive the right transmission screw rod, the right transmission screw rod moves to drive the right transmission slide block, thereby driving the upper rolling wheel to move back and forth to change the gap between the upper rolling wheel and the lower rolling wheel, wherein the left transmission screw rod is a forward thread, and the right transmission screw rod is a reverse thread.

The invention has the beneficial effects that: the terminal of the equipment is provided with a human-computer operation interface for storing data, a user can select processing parameters according to the type of a produced product, and extrusion clearance adjustment can be automatically carried out while the variable frequency speed of the power motor is controlled in the working process.

Drawings

FIG. 1 is a schematic view of the final assembly structure of the present invention.

Fig. 2 is a schematic view of the assembly structure with the left and right cover plates removed.

FIG. 3 is a schematic diagram of a rolling drive system.

Fig. 4 is a left rear schematic view of the extrusion gap adjustment mechanism.

Fig. 5 is a right rear view of the extrusion gap adjustment mechanism.

In the figure, a left cover plate 1, a left support plate 2, a right support plate 3, a right cover plate 4, a left transmission case 5, a worm and gear transmission case 6, a right transmission case 7, an upper rolling wheel 8, a lower rolling wheel 9, a first V-shaped belt wheel 10, a V-shaped belt 11, a second V-shaped belt wheel 12, a power motor 13, a first chain wheel 14, a chain 15, a second chain wheel 16, a first transmission gear 17, a second transmission gear 18, a first fixed shaft 19, an installation plate 20, a servo motor 21, a worm wheel 22, a right transmission slide block 23, a left transmission slide block 24, a first bearing 25, a second bearing 26, a left transmission screw rod 27, a first sector gear 28, a second sector gear 29, a worm 30, a third sector gear 31, a fourth sector gear 32 and a right transmission screw rod 33.

Detailed Description

As shown in fig. 1, 2, 3 and 4, a noodle press capable of automatically adjusting an extrusion gap includes a left cover plate 1, a left support plate 2, a right support plate 3, a right cover plate 4, a left transmission case 5, a worm and gear transmission case 6, a right transmission case 7, a rolling transmission system and an extrusion gap adjusting mechanism, wherein the rolling transmission system is installed on the left support plate 2 and the right support plate 3, two sides of the rolling transmission system are respectively protected by the left cover plate 1 and the right cover plate 4, and the extrusion gap adjusting mechanism is fixed on the left support plate 2 and the right support plate 3 through a mounting plate 20. The left transmission case 5 and the right transmission case 7 are fixed on the mounting plate 20 and used for fixing bevel gears and transmission screw rods on two sides, and the worm and gear transmission case 6 is mounted on the mounting plate 20 and used for mounting the servo motor 21, the worm wheel 22 and the worm 30.

The rolling transmission system comprises an upper rolling wheel 8, a lower rolling wheel 9, a first V-shaped belt wheel 10, a V-shaped belt 11, a second V-shaped belt wheel 12, a power motor 13, a first chain wheel 14, a chain 15, a second chain wheel 16, a first transmission gear 17, a second transmission gear 18 and a first fixed shaft 19, wherein the upper rolling wheel 8 is installed above the lower rolling wheel 9, the first V-shaped belt wheel 10 is installed on the left side of the lower rolling wheel 9, the V-shaped belt 1 is connected to the first V-shaped belt wheel 10, the second V-shaped belt wheel 12 is installed on the power motor 13, the power motor 13 drives the V-shaped belt 11 through the first V-shaped belt wheel 10 and then drives the second V-shaped belt wheel 12 to drive the lower rolling wheel 9, and the lower rolling wheel 9 drives the second transmission gear 18 installed on the first fixed shaft 19 through the first transmission gear 17 to drive the second chain belt 18 to drive the second chain wheel 9 The wheel 16 drives the chain 15 and then the first chain wheel 14 to realize the same-speed direction movement of the upper rolling wheel 8 and the lower rolling wheel 9.

The extrusion gap adjusting mechanism consists of a mounting plate 20, a servo motor 21, a worm wheel 22, a right transmission slide block 23, a left transmission slide block 24, a first bearing 25, a second bearing 26, a left transmission screw rod 27, a first sector gear 28, a second sector gear 29, a worm 30, a third sector gear 31, a fourth sector gear 32 and a right transmission screw rod 33, wherein the upper rolling wheel 8 is positioned in front of the mounting plate 20, the servo motor 21 is arranged in the middle of the rear of the mounting plate 20, the worm wheel 22 is connected below the servo motor 21, the worm 30 is positioned below the worm wheel 22 and is matched and connected with the worm wheel 22, the second sector gear 29 and the third sector gear 31 are positioned at two ends of the worm 30, the second sector gear 29 is matched and connected with the first sector gear 28, and the third sector gear 31 is matched and connected with the fourth sector gear 32, the left driving screw 27 is connected to the first sector gear 28, the right driving screw 33 is connected to the fourth sector gear 32, one end of the left driving screw 27 extends into the left driving slider 24, one end of the right driving screw 33 extends into the right driving slider 23, the second bearing 26 is installed in the left driving slider 24, the first bearing 25 is installed in the right driving slider 23, the servo motor 21 drives the worm 30 through the worm wheel 22, the worm 30 selectively drives the second sector gear 29 and the third sector gear 31 installed at the tail end of the worm 30, the second sector gear 29 and the first sector gear 28 are matched to drive the left driving screw 27, and the left driving screw 27 drives the left driving slider 24, the third sector gear 31 and the fourth sector gear 32 are matched to drive the right transmission screw rod 33, the right transmission screw rod 33 moves to drive the right transmission slide block 23, so that the upper rolling wheel 8 is driven to move back and forth to change the gap between the upper rolling wheel and the lower rolling wheel 9, the left transmission screw rod 27 is a forward thread, and the right transmission screw rod 33 is a reverse thread.

Claims

1. The utility model provides a can automatic adjustment extrusion clearance's ooze machine, includes left side apron (1), left extension board (2), right extension board (3), right side apron (4), left transmission case (5), worm gear transmission case (6), right transmission case (7), roll extrusion transmission system and extrusion clearance guiding mechanism, its characterized in that, roll extrusion transmission system install left extension board (2) and right extension board (3) on, both sides by left side apron (1) and right extension board (4) protect respectively, extrusion clearance guiding mechanism by mounting panel (20), servo motor (21), worm wheel (22), right transmission slider (23), left transmission slider (24), first bearing (25), second bearing (26), left transmission lead screw (27), first sector gear (28), second sector gear (29), worm (30), third sector gear (31), A fourth sector gear (32) and a right transmission screw rod (33), wherein the extrusion gap adjusting mechanism is fixed on the left support plate (2) and the right support plate (3) through a mounting plate (20), the left transmission case (5) and the right transmission case (7) are fixed on the mounting plate (20) and used for fixing bevel gears and transmission screw rods on two sides, the worm and gear transmission case (6) is installed on the mounting plate (20) and used for installing a servo motor (21), a worm wheel (22) and a worm (30), the rolling transmission system consists of an upper rolling wheel (8), a lower rolling wheel (9), a first V-shaped belt wheel (10), a V-shaped belt (11), a second V-shaped belt wheel (12), a power motor (13), a first chain wheel (14), a chain (15), a second chain wheel (16), a first transmission gear (17), a second transmission gear (18) and a first fixing shaft (19), the upper rolling wheel (8) is arranged above the lower rolling wheel (9), the first V-shaped belt wheel (10) is arranged on the left side of the lower rolling wheel (9), the V-shaped belt (11) is connected on the first V-shaped belt wheel (10), the second V-shaped belt wheel (12) is arranged on the power motor (13), the upper rolling wheel (8) is positioned in front of the mounting plate (20), the servo motor (21) is arranged in the middle of the rear of the mounting plate (20), the lower part of the servo motor (21) is connected with the worm wheel (22), the worm (30) is positioned below the worm wheel (22) and is in matched connection with the worm wheel (22), the second sector gear (29) and the third sector gear (31) are positioned at two ends of the worm (30), and the second sector gear (29) is in matched connection with the first sector gear (28), third sector gear (31) with fourth sector gear (32) cooperation be connected, left transmission lead screw (27) connect first sector gear (28) on, right transmission lead screw (33) connect fourth sector gear (32) on, the one end of left transmission lead screw (27) extend to left transmission slider (24) in, the one end of right transmission lead screw (33) extend to right transmission slider (23) in, second bearing (26) install left transmission slider (24) in, first bearing (25) install right transmission slider (23) in, servo motor (21) pass through worm wheel (22) drive worm (30), worm (30) select to drive install second sector gear (29) and third sector gear (31) at worm (30) end, the second sector gear (29) and the first sector gear (28) are matched to drive the left transmission screw rod (27), the left transmission screw rod (27) drives the left transmission slide block (24), the third sector gear (31) and the fourth sector gear (32) are matched to drive the right transmission screw rod (33), the right transmission screw rod (33) moves to drive the right transmission slide block (23) so as to drive the front and back movement of the upper rolling wheel (8) to change the gap between the upper rolling wheel and the lower rolling wheel (9), the left transmission screw rod (27) is a forward thread, and the right transmission screw rod (33) is a reverse thread.