CN218790117U - Full-automatic continuous noodle press for steamed bun processing - Google Patents

Abstract

The utility model relates to a full-automatic continuous oodle maker is used in steamed bun processing relates to the technical field of food processing equipment, includes: a frame; the upper conveying belt mechanism is connected to the rack and is used for receiving and conveying the dough sheets conveyed by the conveyor; the combined compression roller mechanism is arranged at one end of the upper conveying belt mechanism and used for pressing the dough sheet and transmitting the dough sheet to the upper conveying belt mechanism; the lower conveying belt mechanism is arranged below the upper conveying belt mechanism and used for receiving the dough sheet conveyed by the upper conveying belt mechanism and transmitting the dough sheet into the combined pressing roller mechanism for repeated pressing or transferring out equipment; the power output mechanism is respectively connected with the upper conveying belt mechanism, the combined compression roller mechanism and the lower conveying belt mechanism and drives the upper conveying belt mechanism, the combined compression roller mechanism and the lower conveying belt mechanism to rotate; and the electric appliance control system is electrically connected with the power output mechanism and controls the working state of the power output mechanism. This application can realize the suppression repeatedly of dough and fold repeatedly, improves the kneading effect of continuous oodle maker.

Description

Full-automatic continuous noodle press for steamed bun processing

Technical Field

The application relates to the field of food processing equipment, in particular to a full-automatic continuous noodle press for steamed bun processing.

Background

The dough press is a food machine which replaces the traditional manual dough kneading after uniformly stirring flour and water. Can be used for making noodles, dumpling wrapper, cake, pastry, etc., and is suitable for family hotel, restaurant dining room, cake factory, bread factory, various pastry processing units or individual industry and business.

In the industrial production process of steamed bread, in order to improve the production efficiency, a continuous noodle press is usually used for kneading dough to improve the flexibility of the dough, so that the produced steamed bread has good toughness and good taste.

Continuous oodle maker adds man-hour, is the dough piece with the dough suppression extension, because the dough piece produces not flexible of equidimension after carrying out the suppression for the length of dough piece changes, after the suppression many times, the dough piece can be by overstretching, causes dough piece thickness reduction or dough piece fracture, thereby can't carry out continuous suppression, influences the machining efficiency and the processingquality of millet cake.

SUMMERY OF THE UTILITY MODEL

The utility model provides a full-automatic continuous oodle maker is used in steamed bun processing can realize the suppression repeatedly of dough and fold repeatedly, improves the kneading effect of continuous oodle maker.

The application provides a full-automatic continuous oodle maker for steamed bun processing adopts following technical scheme:

a full-automatic continuous noodle press for steamed bun processing comprises:

a frame;

the upper conveying belt mechanism is connected to the rack and is used for receiving and conveying the dough sheets conveyed by the conveyor;

the combined compression roller mechanism is arranged at one end of the upper conveying belt mechanism and used for pressing the dough sheet and transmitting the dough sheet to the upper conveying belt mechanism;

the lower conveying belt mechanism is arranged below the upper conveying belt mechanism and used for receiving the dough sheet conveyed by the upper conveying belt mechanism and transmitting the dough sheet into the combined pressing roller mechanism for repeated pressing or transferring out equipment;

the power output mechanism is respectively connected with the upper conveying belt mechanism, the combined compression roller mechanism and the lower conveying belt mechanism and drives the upper conveying belt mechanism, the combined compression roller mechanism and the lower conveying belt mechanism to rotate; and

and the electric appliance control system is electrically connected with the power output mechanism and controls the working state of the power output mechanism.

By adopting the technical scheme, under the control action of an electric appliance control system, a dough sheet falling onto the upper conveying belt mechanism falls onto the lower conveying belt mechanism under the transmission of the upper conveying belt mechanism, moves towards the direction of the combined compression roller mechanism under the transmission of the lower conveying belt mechanism, enters the combined compression roller mechanism to be pressed into a sheet, and the dough sheet transmitted from the combined compression roller mechanism moves upwards to fall onto the upper conveying belt mechanism to complete one-time circular pressing; then the dough sheet falls into the lower conveying belt mechanism again, and is piled up or folded on the lower conveying belt mechanism, and the area is reduced for pressing again.

Optionally, a dough feeding guide mechanism is arranged at the top of one end of the rack and arranged above the upper conveying belt mechanism, the dough feeding guide mechanism comprises a guide support frame and a plurality of guide rollers connected to the guide support frame, one end of the guide support frame is connected with the rack, and the other end of the guide support frame inclines upwards and is used for bearing the dough sheet.

Through adopting above-mentioned technical scheme, advance a guiding mechanism and can accept the dough that comes from last process, fall on the conveyer belt mechanism under the guide of guide roll on, make the placement of every dough the same.

Optionally, the top of frame is provided with dusting mechanism, and dusting mechanism sets up in last conveyer belt mechanism transmission terminal top, and dusting mechanism is connected with the dusting motor including going out powder storehouse and setting at the control flap in a powder storehouse bottom on the control flap.

Through adopting above-mentioned technical scheme, control valve can control out the powder storehouse and open intermittently, spills flour on the dough sheet to passing through from powder storehouse below, reduces the surperficial viscidity of dough sheet, avoids the dough sheet to glue on equipment.

Optionally, the upper conveying belt mechanism comprises an upper conveying belt and an upper driving wheel connected to a driving shaft of the upper conveying belt, and the upper driving wheel is connected with the power output mechanism.

Through adopting above-mentioned technical scheme, power take off mechanism drive upper drive wheel rotates, and then drives the conveyer belt and rotates, realizes the conveying to the dough sheet.

Optionally, the combined compression roller mechanism is arranged at one end of the upper conveying belt mechanism and comprises a driving roller and at least two driven rollers, the driving roller is connected with the power output mechanism, the driving roller and the driven rollers are connected through a gear mechanism, a dough sheet inlet is formed in the lower side of the driving roller, and a dough sheet outlet is formed in the upper side of the driving roller.

Through adopting above-mentioned technical scheme, the dough sheet gets into from the dough sheet entry under the transport of conveyer belt mechanism down, through the suppression of drive roll and driven voller, then spreads out from the dough sheet export, sets up the suppression number of times and the efficiency that a plurality of driven voller can increase the dough sheet.

Optionally, the combined compression roller mechanism is arranged at one end of the lower conveying belt mechanism, the length of the lower conveying belt mechanism is larger than that of the upper conveying belt mechanism, one end, far away from the combined compression roller mechanism, of the lower conveying belt mechanism protrudes out of the upper conveying belt mechanism, and the lower conveying belt mechanism comprises a lower conveying belt and a lower driving wheel connected to a driving shaft of the lower conveying belt.

Through adopting above-mentioned technical scheme, under power take off mechanism's drive, the conveyer belt realization corotation and reversal are gone up in the drive of lower drive wheel, can transmit the dough sheet outside the equipment during corotation, can carry the dough sheet to the suppression in the combination compression roller mechanism during the reversal.

Optionally, the power output mechanism includes a main gear motor mechanism and a servo gear motor mechanism connected to the frame, an output shaft of the main gear motor mechanism is connected to the upper driving wheel and the driving roller through belt transmission, and an output shaft of the servo gear motor mechanism is connected to the lower driving wheel through belt transmission.

By adopting the technical scheme, the main speed reducing motor mechanism can drive the upper driving wheel and the driving roller to rotate, so that the driving roller and the upper conveying belt can only rotate in one direction to convey the dough sheet; the lower conveying belt is separately provided with a servo speed reducing motor mechanism for driving, so that the lower conveying belt can be switched between a forward rotation state and a reverse rotation state.

Optionally, one end of the lower conveying belt mechanism, which is far away from the combined pressing roller mechanism, is provided with a noodle outlet pressing roller mechanism, the noodle outlet pressing roller mechanism comprises at least two noodle outlet pressing rollers and a noodle outlet motor for driving the noodle outlet pressing rollers to rotate, and a noodle outlet channel is arranged between the two noodle outlet pressing rollers.

Through adopting above-mentioned technical scheme, the dough sheet that the suppression is good can enter into between two play dough compression rollers under the transmission of conveyer belt down to drive the antedisplacement by a play dough compression roller, fall into the equipment of next step's process.

Optionally, the electric appliance control system comprises a controller, a counting photoelectric sensor arranged at one end, close to the combined compression roller mechanism, of the upper conveying belt mechanism and a folding photoelectric sensor arranged at one end, far away from the combined compression roller mechanism, of the upper conveying belt mechanism, wherein the controller is electrically connected with the main speed reduction motor mechanism and the servo speed reduction motor mechanism respectively.

By adopting the technical scheme, the counting photoelectric sensor is used for calculating the number of the dough sheets falling onto the upper conveying belt, the dough sheets can trigger the folding photoelectric sensor through the folding photoelectric sensor, a signal is sent to the controller, and the controller control equipment executes a dough sheet folding command.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the continuous noodle press can continuously press and continuously fold the dough sheet, so that the dough kneading effect of the dough sheet is better.

2. The continuous noodle press can continuously execute operation, has high efficiency and good stability, and greatly improves the industrial production efficiency of steamed bread.

Drawings

FIG. 1 is a schematic view of the overall structure of a noodle press according to an embodiment of the present application;

FIG. 2 is a schematic front structural view of a noodle press according to an embodiment of the present application;

FIG. 3 is a schematic diagram of the present application in an embodiment of the present application;

FIG. 4 is a schematic illustration of an embodiment of the present application as it appears;

in the figure, 1, a frame; 2. an upper conveyor belt mechanism; 21. an upper conveyor belt; 22. an upper drive wheel; 3. a combined compression roller mechanism; 31. a drive roll; 32. a driven roller; 4. a lower conveyor belt mechanism; 41. a lower conveyor belt; 42. a lower drive wheel; 5. a face entry guide mechanism; 51. a guide support frame; 52. a guide roller; 6. a dusting mechanism; 61. a powder outlet bin; 62. a control valve; 7. a main gear motor mechanism; 71. an active motor; 72. an output wheel of the driving motor; 8. a servo reduction motor mechanism; 81. a servo motor; 82. a servo motor output wheel; 9. a dough outlet pressing roller mechanism; 91. and (7) discharging the dough to a press roll.

Detailed Description

The present application is described in further detail below with reference to fig. 1-4.

The embodiment is as follows: a full-automatic continuous noodle press for processing steamed bread, referring to fig. 1 and 2, comprises a frame 1, an upper conveying belt mechanism 2, a combined press roller mechanism 3, a lower conveying belt mechanism 4, a noodle feeding guide mechanism 5, a dusting mechanism 6, a noodle discharging press roller mechanism 9, a power output mechanism and an electric appliance control system.

The frame 1 is formed by welding a metal plate body and a rod material and is used for supporting the whole equipment, and the bottom of the frame 1 is provided with a leveling mechanism.

The upper conveying belt mechanism 2 is connected to the upper portion of the rack 1 and used for receiving and conveying dough sheets sent by the conveyor, the upper conveying belt mechanism 2 comprises an upper conveying belt 21, a driving shaft and a driven shaft, the upper conveying belt 21 is sleeved between the driving shaft and the driven shaft and is driven to rotate by the driving shaft, the driving shaft of the upper conveying belt 21 is arranged at one end close to upstream equipment, an upper driving wheel 22 is connected to the driving shaft of the upper conveying belt 21, and the upper driving wheel 22 is connected with a power output mechanism.

The power output mechanism comprises a main speed reducing motor mechanism 7 and a servo speed reducing motor mechanism 8 which are connected to the lower portion of the rack 1, the main speed reducing motor mechanism 7 comprises a driving motor 71 and a driving motor output wheel 72, a speed reducer is connected to the driving motor 71, the driving motor output wheel 72 is connected to an output shaft of the speed reducer, the driving motor output wheel 72 is connected with the upper driving wheel 22 through belt transmission, a triangle belt can be arranged, the synchronous belt or a chain is connected, the driving motor output wheel 72 and the upper driving wheel 22 are arranged to be a belt pulley in the embodiment, and the driving motor output wheel 72 and the upper driving wheel 22 are connected through a belt.

The combined compression roller mechanism 3 is installed on the rack 1, specifically, one end of the upper conveying belt 21 close to the upstream equipment, the combined compression roller mechanism 3 includes a driving roller 31 with a larger diameter and at least two driven rollers 32 with a smaller diameter, four driven rollers 32 are provided in the embodiment, the four driven rollers 32 are distributed on one side of the driving roller 31 far away from the upper conveying belt 21, the end portion of the driving roller 31 and the end portion of the driven roller 32 are connected through a gear mechanism, so that the driving roller 31 and the driven roller 32 can rotate synchronously, a pressing and conveying channel of a dough sheet is formed between the driving roller 31 and the driven roller 32, a dough sheet inlet is provided between the driving roller 31 and the driven roller 32 at the lowest end, and a dough sheet outlet is provided between the driving roller 31 and the driven roller 32 at the highest end. The dough sheet flowing out of the dough sheet outlet is dropped onto the upper conveyor belt 21, and the dough sheet outlet is provided with a carrier roller for preventing the dough sheet from collapsing. The end of the driving roller 31 is connected with a belt pulley, and the driving roller 31 is connected with the driving motor output wheel 72 through another belt, so that the driving roller 31 is driven by the driving motor 71 to rotate, and in the embodiment, the two belts are both connected with tensioning wheels.

Lower conveyer belt mechanism 4 sets up under last conveyer belt mechanism 2, also installs in frame 1, and combination compression roller mechanism 3 sets up the one end at lower conveyer belt mechanism 4, and the length of lower conveyer belt mechanism 4 is greater than the length of last conveyer belt mechanism 2, and the one end of keeping away from combination compression roller mechanism 3 surpasss the other end of conveyer belt mechanism 2 to frame 1.

The lower conveying belt mechanism 4 comprises a lower conveying belt 41, a driving shaft and a driven shaft, the lower conveying belt 41 is sleeved between the driving shaft and the driven shaft and is driven to rotate by the driving shaft, the driving shaft of the lower conveying belt 41 is arranged at one end far away from the combined pressing roller mechanism 3 in the embodiment, a lower driving wheel 42 is connected to the driving shaft of the lower conveying belt 41, and the lower driving wheel 42 is connected with the servo speed reduction motor mechanism 8. The servo speed reducing motor mechanism 8 comprises a servo motor 81 and a servo motor output wheel 82, a speed reducer is connected to the servo motor 81, the servo motor output wheel 82 is connected to an output shaft of the speed reducer, the servo motor output wheel 82 is connected with the lower driving wheel 42 through belt transmission, the servo motor output wheel can be connected with a triangular belt, a synchronous belt or a chain, the servo motor output wheel 82 and the lower driving wheel 42 are arranged to be a belt pulley in the embodiment, and the servo motor output wheel and the lower driving wheel are connected through a belt. The rotation direction of the servo motor 81 can be changed to control the forward rotation and the reverse rotation of the lower conveying belt 41.

The top of frame 1 is provided with into face guiding mechanism 5, it sets up in the top of last conveyer belt mechanism 2 and the 3 juncture of combination compression roller mechanism to advance face guiding mechanism 5, it includes direction support frame 51 and a plurality of guide roll 52 to advance face guiding mechanism 5, the direction support frame is the rectangular frame structure, one end is connected with frame 1, the other end is to keeping away from one side top slope of last conveyer belt 21, a plurality of guide roll 52 are parallel with the driving shaft of last conveyer belt 21, and rotate to connect in the framework inboard of direction support frame 51, be used for accepting the transport dough sheet.

The dusting mechanism 6 is arranged at the top of the frame 1 and above one end of the upper conveying belt mechanism 2 far away from the combined press roller mechanism 3, and the dusting mechanism 6 spans above the upper conveying belt 21. Dusting mechanism 6 is including going out powder storehouse 61 and control flap 62, it is trapezoidal box to set up to the cross section to go out powder storehouse 61 in this embodiment, the upside opening is installed the top cap, get into dust in avoiding going out powder storehouse 61, go out powder storehouse 61 bottom and seted up out the powder mouth along the parallel driving shaft direction of conveyer belt 21, control flap 62 is connected in a powder mouth department, control flap 62 sets up to surely going out a planar round bar along the axis direction in this embodiment, along with control flap 62's rotation, can realize the tangent plane on the staggered control flap 62 of a powder mouth, thereby open a powder mouth, outwards spill flour, control flap 62's one end is connected with dusting motor, dusting motor adopts step motor, control flap 62 that can intermittent type nature is opened.

The dough outlet pressing roller mechanism 9 is connected on the frame 1, and is located one end of the lower conveying belt mechanism 4 far away from the combined pressing roller mechanism 3, the dough outlet pressing roller mechanism 9 comprises at least two dough outlet pressing rollers 91 and a dough outlet motor for driving the dough outlet pressing rollers 91 to rotate, in the embodiment, two dough outlet pressing rollers 91 are arranged, the two dough outlet pressing rollers 91 are oppositely arranged up and down, a dough outlet channel is arranged between the two dough outlet pressing rollers 91, the dough outlet pressing roller 91 at the lower end is active, the end part of the active dough outlet pressing roller 91 is connected with the end part of the active shaft of the lower conveying belt 41 through a belt, the dough outlet motor is also a servo motor 81, the servo motor 81 drives the lower driving wheel 42 to rotate and simultaneously drives the dough outlet pressing rollers 91 to rotate, and the dough sheet is sent out.

In this embodiment, the electric control system is electrically connected to the entire power output mechanism to control the operating state of the power output mechanism. The electric appliance control system comprises a controller, a counting photoelectric sensor and a folding photoelectric sensor (shown in the figure), the controller can adopt a PLC (programmable logic controller), a control program is set, the counting photoelectric sensor is arranged at one end, close to the combined compression roller mechanism 3, of the upper conveying belt 21 and used for calculating the pressing times of a dough sheet on the upper conveying belt 21, the folding photoelectric sensor is arranged at one end, far away from the combined compression roller mechanism 3, of the upper conveying belt 21 and used for detecting the dough sheet and sending a limit number to the controller, the controller is respectively electrically connected with the active motor 71 and the servo motor 81, and the working states of the active motor 71 and the servo motor 81 are controlled.

The implementation principle of the embodiment of the application is as follows:

referring to fig. 3 and 4, the dough sheet coming out of the conveyor is firstly sent to an upper conveyer belt 21 of the continuous dough press through a dough inlet guide mechanism 5, then sent to a lower conveyer belt 41 through the upper conveyer belt 21, sent to a combined press roll mechanism 3 through the lower conveyer belt 41, and sent to the upper conveyer belt 21 after being combined, pressed and turned over by the press rolls, so as to complete the primary circulation of dough pressing;

then the dough sheet is sent to the lower conveying belt 41 by the upper conveying belt 21, the lower conveying belt 41 realizes forward and reverse movement through forward and reverse rotation of the servo motor 81 at the moment, the dough sheet is folded, then the dough sheet is sent to the combined pressing roller mechanism 3 again through the lower conveying belt 41, the dough sheet is sent to the upper conveying belt 21 after being combined, pressed and turned over by the pressing rollers, and the circulation of the dough sheet is completed again until the set dough pressing circulation times are completed;

at this time, if the equipment of the next process needs a dough sheet, the lower conveying belt 41 of the dough press does not move in the forward and reverse directions any more, the dough sheet is directly sent to the dough outlet press roller mechanism 9, the dough sheet is pressed for the last time by the dough outlet press roller mechanism 9 and sent to the conveying belt of the equipment of the next process, and at this time, the operation of the dough press is completed;

at this moment, if the equipment of next process does not need the dough sheet, then the lower conveyer belt 41 of oodle maker carries out two positive and negative directions and moves and folds the dough sheet, lower conveyer belt 41 stop motion, the dough sheet after folding waits on lower conveyer belt 41, until next meeting machine needs the dough sheet, oodle maker lower conveyer belt 41 starts, send the dough sheet into the compression roller combination, send the face to the upper conveyor belt 21 after the compression roller combination suppression upset again, send to the lower conveyer belt 41 by the upper conveyor belt 21 again, lower conveyer belt 41 no longer carries out two positive and negative directions and moves, then directly send the dough sheet into a pressure roller mechanism 9 that appears, the dough sheet carries out last suppression through a pressure roller mechanism 9 that appears with the dough sheet, send to the conveyer belt of meeting machine.

The embodiments of the present invention are preferred embodiments of the present application, and the protection scope of the present application is not limited thereby, wherein like parts are denoted by like reference numerals. Therefore, the method comprises the following steps: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a steamed bun processing is with full-automatic continuous oodle maker which characterized in that includes:

a frame (1);

the upper conveying belt mechanism (2) is connected to the rack (1) and is used for receiving and conveying the dough sheets conveyed by the conveyor;

the combined compression roller mechanism (3) is arranged at one end of the upper conveying belt mechanism (2) and is used for pressing a dough sheet and transmitting the dough sheet to the upper conveying belt mechanism (2);

the lower conveying belt mechanism (4) is arranged below the upper conveying belt mechanism (2) and is used for receiving the dough sheet conveyed by the upper conveying belt mechanism (2) and transmitting the dough sheet into the combined pressing roller mechanism (3) for repeated pressing or transferring out of the device;

the power output mechanism is respectively connected with the upper conveying belt mechanism (2), the combined compression roller mechanism (3) and the lower conveying belt mechanism (4) and drives the upper conveying belt mechanism (2), the combined compression roller mechanism (3) and the lower conveying belt mechanism (4) to rotate; and

and the electric appliance control system is electrically connected with the power output mechanism and controls the working state of the power output mechanism.

2. The full-automatic continuous noodle press for steamed bun processing according to claim 1, wherein a noodle feeding guide mechanism (5) is arranged at the top of one end of the frame (1), the noodle feeding guide mechanism (5) is arranged above the upper conveying belt mechanism (2), the noodle feeding guide mechanism (5) comprises a guide support frame (51) and a plurality of guide rollers (52) connected to the guide support frame (51), one end of the guide support frame (51) is connected with the frame (1), and the other end of the guide support frame is inclined upwards and used for receiving dough sheets.

3. The full-automatic continuous noodle press for steamed bun processing according to claim 1, wherein a powdering mechanism (6) is arranged at the top of the frame (1), the powdering mechanism (6) is arranged above the transmission end of the upper conveyor belt mechanism (2), the powdering mechanism (6) comprises a powder outlet bin (61) and a control valve (62) arranged at the bottom of the powder outlet bin (61), and a powdering motor is connected to the control valve (62).

4. The full-automatic continuous noodle press for steamed bun processing according to claim 1, wherein the upper conveyor belt mechanism (2) comprises an upper conveyor belt (21) and an upper driving wheel (22) connected to a driving shaft of the upper conveyor belt (21), and the upper driving wheel (22) is connected with a power output mechanism.

5. The full-automatic continuous noodle press for steamed bun processing according to claim 4, wherein the combined compression roller mechanism (3) is arranged at one end of the upper conveying belt mechanism (2) and comprises a driving roller (31) and at least two driven rollers (32), the driving roller (31) is connected with the power output mechanism, the driving roller (31) and the driven rollers (32) are connected through a gear mechanism, a dough sheet inlet is arranged at the lower side of the driving roller (31), and a dough sheet outlet is arranged at the upper side of the driving roller (31).

6. The full-automatic continuous noodle press for steamed bun processing according to claim 5, wherein the combined press roller mechanism (3) is arranged at one end of the lower conveyer belt mechanism (4), the length of the lower conveyer belt mechanism (4) is greater than that of the upper conveyer belt mechanism (2), one end far away from the combined press roller mechanism (3) protrudes out of the upper conveyer belt mechanism (2), and the lower conveyer belt mechanism (4) comprises a lower conveyer belt (41) and a lower driving wheel (42) connected to a driving shaft of the lower conveyer belt (41).

7. The full-automatic continuous noodle press for steamed bun processing according to claim 6, wherein the power output mechanism comprises a main speed reduction motor mechanism (7) and a servo speed reduction motor mechanism (8) connected to the frame (1), an output shaft of the main speed reduction motor mechanism (7) is connected to the upper driving wheel (22) and the driving roller (31) through belt transmission, and an output shaft of the servo speed reduction motor mechanism (8) is connected to the lower driving wheel (42) through belt transmission.

8. The full-automatic continuous noodle press for steamed bun processing according to claim 7, wherein one end of the lower conveyer belt mechanism (4) far away from the combined press roller mechanism (3) is provided with a noodle outlet press roller mechanism (9), the noodle outlet press roller mechanism (9) comprises at least two noodle outlet press rollers (91) and a noodle outlet motor for driving the noodle outlet press rollers (91) to rotate, and a noodle outlet channel is arranged between the two noodle outlet press rollers (91).

9. The full-automatic continuous noodle press for steamed bun processing according to claim 7, wherein the electrical control system comprises a controller, a counting photoelectric sensor arranged at one end of the upper conveying belt mechanism (2) close to the combined press roller mechanism (3) and a folding photoelectric sensor arranged at one end of the upper conveying belt mechanism (2) far away from the combined press roller mechanism (3), and the controller is electrically connected with the main speed reducing motor mechanism (7) and the servo speed reducing motor mechanism (8) respectively.

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