CN215381297U - Cylindrical dried bean forming mechanism - Google Patents

Abstract

The utility model discloses a cylindrical beancurd sheet forming mechanism which comprises a beancurd sheet forming device and a beancurd sheet rounding device, wherein sheet beancurd sheets are formed on the beancurd sheet forming device, the beancurd sheet rounding device is arranged above the beancurd sheet forming device, the beancurd sheet rounding device comprises a rounding fixed column, the rounding fixed column is fixedly arranged on the beancurd sheet forming device, a rounding mounting plate is arranged on the rounding fixed column, a rounding roller is movably arranged on the rounding mounting plate, the rounding roller is connected with a rounding driving mechanism, and the rounding driving mechanism can drive the rounding roller to move so as to knead the sheet beancurd sheets into cylindrical beancurd sheets; the bean curd stick rounding device is connected with the conveying device, a drying mechanism is arranged above the conveying device, and the drying mechanism can dry the cylindrical bean curd sticks. The cylindrical dried bean forming mechanism has high automation degree, reduces the number of workers, reduces the labor intensity of the workers and improves the production efficiency.

Description

Cylindrical dried bean forming mechanism

The application is a divisional application, and the application numbers of the original application are as follows: 202022808756.2, the application date is 11.27.2020, the utility model is named as "column dried bean processing equipment".

Technical Field

The utility model relates to food processing equipment, in particular to a cylindrical dried bean forming mechanism.

Background

The dried beancurd stick is also called beancurd sheet, is a popular traditional food, is a common food raw material, has strong bean flavor, and has unique taste which is not possessed by other bean products. The dried beancurd sticks are yellow and white in color, glossy and bright, and rich in protein and various nutritional ingredients.

The existing bean curd stick processing technology is generally that soybean milk is heated and boiled, heat preservation is carried out for a period of time, a layer of film is formed on the surface, the film is picked out and droops to form a branch strip shape, and then the bean curd stick is obtained by drying. It is similar to the branch of a bamboo, and is called a dried bean. The dried bean curd stick is a product with a certain structure and composed of a soybean protein film and fat. High nutritive value, easy preservation and convenient eating, and is deeply favored by consumers at home and abroad.

In the conventional processing, there are the following problems: firstly, the surface of the beancurd sheets is filmed in a specific container with a certain temperature, and during the process of manually lifting, workers can be scalded by high-temperature soybean milk and steam; secondly, when the skin of a worker is picked up, soybean milk is seriously spilled, so that raw materials are wasted, and the taste of the picked dried beancurd sticks is influenced after the dried beancurd sticks are formed due to the redundant soybean milk; in addition, the manual operation has low production efficiency.

Therefore, it is necessary to design an automatic processing device for producing dried beancurd sticks.

SUMMERY OF THE UTILITY MODEL

The utility model provides a cylindrical dried bean forming mechanism which has the advantages of high automation degree, high production efficiency and cost saving. The specific technical scheme is as follows:

a cylindrical beancurd sheet forming mechanism comprises a beancurd sheet forming device and a beancurd sheet rounding device, wherein sheet beancurd sheets are formed on the beancurd sheet forming device, the beancurd sheet rounding device is arranged above the beancurd sheet forming device, the beancurd sheet rounding device comprises a rounding fixed column, the rounding fixed column is fixedly arranged on the beancurd sheet forming device, a rounding mounting plate is arranged on the rounding fixed column, a rounding roller is movably arranged on the rounding mounting plate, the rounding roller is connected with a rounding driving mechanism, and the rounding driving mechanism can drive the rounding roller to move so as to knead the sheet beancurd sheets into cylindrical beancurd sheets; the bean curd stick rounding device is connected with the conveying device, a drying mechanism is arranged above the conveying device, and the drying mechanism can dry the cylindrical bean curd sticks.

Furthermore, two groups of rollers are respectively arranged on two sides of the rounding mounting plate, each group of rollers is two, the two rollers are arranged up and down, the rollers are U-shaped, and a channel is formed between the two rollers; the rounding roller is connected with a rounding guide rail, the rounding guide rail is matched with a channel between the two rollers, and the rounding guide rail can move relative to the rollers; the circle rubbing driving mechanism is connected with the circle rubbing guide rail and can drive the circle rubbing guide rail to move.

Further, the circle rubbing driving mechanism comprises a circle rubbing connecting rod and a circle rubbing wheel, one end of the circle rubbing connecting rod is connected with the circle rubbing guide rail, the other end of the circle rubbing connecting rod is connected with the circle rubbing wheel, the circle rubbing wheel is connected with a circle rubbing motor, and the circle rubbing wheel rotates to drive the circle rubbing guide rail to move left and right repeatedly.

Further, conveyer includes the conveying support body, and the conveying support body is fixed continuous with beancurd sheet forming device, and sets up in beancurd sheet forming device top, and the conveyer belt annular sets up on the conveying support body.

Furthermore, a first conveying rotating shaft and a second conveying rotating shaft are respectively arranged at two ends of the conveying frame body, and a third conveying rotating shaft is arranged on the beancurd sheet forming device at one side of the rounding fixing column, which is far away from the conveying frame body; the conveying belt is annularly arranged on the three rotating shafts, the part between the first conveying rotating shaft and the second conveying rotating shaft is a conveying part, the part between the second conveying rotating shaft and the third conveying rotating shaft is a circle rubbing part, the circle rubbing roller is arranged above the circle rubbing part, and the circle rubbing roller can move left and right relative to the circle rubbing part and can rotate relative to the circle rubbing part.

Further, the round rubbing portion is connected with the conveying portion, the conveying portion is parallel to the beancurd sheet forming device and arranged above the beancurd sheet forming device, the round rubbing portion is obliquely arranged relative to the beancurd sheet forming device, one end of the round rubbing portion is close to the beancurd sheet forming device, and the other end of the round rubbing portion is connected with the conveying portion.

Further, a plurality of bearing plates are arranged on the conveying frame body and arranged below the conveying part to bear the conveying part.

Further, the bean curd stick rounding device is arranged in the middle of the bean curd sheet forming device, one side, far away from the conveying frame body, of the bean curd sheet rounding device is provided with a cutting assembly, the cutting assembly can cut bean curd sheets on the bean curd sheet forming device into a plurality of pieces, and a plurality of bean curd sticks are formed after being kneaded by the bean curd sheet rounding device.

Further, the slitting component comprises a cutter fixing seat, the cutter fixing seat is arranged on two sides of the beancurd sheet forming device, a cutter mounting shaft is arranged on the cutter fixing seat, one end of a cutter is sleeved on the cutter mounting shaft, a circular blade is arranged at the other end of the cutter and can rotate around a cutter handle of the cutter, and the cutter can divide the beancurd sheets on the beancurd sheet forming device into a plurality of sheets.

Further, a cutting shaft is arranged between the cutter fixing seat and the rounding part, the circular blade can be abutted against the cutting shaft, and the beancurd sheets are cut on the cutting shaft.

The cylindrical bean curd stick forming mechanism is ingenious in design, bean curd sticks are produced by adopting continuously flowing soybean milk, and the quality of the bean curd sticks is stable; the rolling shaft moving left and right is used for forming the dried beancurd sticks, so that the dried beancurd sticks are compact and have good taste; the bean curd sticks are turned and overturned by the turning and overturning mechanism, so that the bean curd sticks are conveyed more flexibly, and the equipment is convenient to arrange. In addition, the utility model has high automation degree, greatly reduces the number of workers, simultaneously lightens the labor intensity of the workers and improves the efficiency.

Drawings

FIG. 1 is a perspective view of the whole of the cylindrical dried bean processing apparatus of the present invention 1;

FIG. 2 is a schematic view of the bean curd sheet forming device of the present invention connected to a first conveying device;

FIG. 3 is a side sectional view of the beancurd sheet forming device of the present invention;

FIG. 4 is a perspective view of the bean curd sheet forming device of the present invention connected to a first conveying device;

FIG. 5 is a perspective view of the bean curd stick rounding device of the present invention;

FIG. 6 is a perspective view of the whole of the cylindrical dried bean processing apparatus of the present invention 2;

FIG. 7 is a schematic view of a second conveyor of the present invention connected to a diverting conveyor;

FIG. 8 is an enlarged view taken at A of FIG. 7;

FIG. 9 is a perspective view of the cut-off conveyor of the present invention;

FIG. 10 is a schematic view of the internal assembly of the cut-off conveyor of the present invention, FIG. 1;

fig. 11 is a schematic view of the internal assembly of the cutoff conveying device of the present invention 2.

Detailed Description

In order to better understand the purpose, function and specific design scheme of the utility model, the cylindrical beancurd stick forming mechanism of the utility model is further described in detail with reference to the attached drawings.

As shown in fig. 1-11, the cylindrical beancurd sheet forming mechanism of the utility model comprises a beancurd sheet forming device 1, soybean milk is contained in the beancurd sheet forming device 1, a heating device is arranged at the bottom of the beancurd sheet forming device 1, the heating device can heat the soybean milk in the beancurd sheet forming device 1, the bean curd sheet forming device comprises a bean curd sheet forming device 1, a bean curd sheet rounding device 2 is arranged above the bean curd sheet forming device 1, sheet bean curd sheets are rounded into cylindrical bean curd sticks through the bean curd sheet rounding device 2, the bean curd sheet rounding device 2 is connected with a first conveying device 3, the first conveying device 3 is connected with a second conveying device 4, the second conveying device 4 is connected with a steering conveying device 5, the steering conveying device 5 is connected with a cutting conveying device 6, the cylindrical bean curd sticks are conveyed to the second conveying device 4 through the first conveying device 3 and conveyed to the cutting conveying device 6 through the steering conveying device 5 to be cut, and then the bean curd sticks are packaged.

Specifically, as shown in fig. 2 and 3, the beancurd sheet forming device 1 includes a beancurd sheet forming frame body 11, a beancurd sheet groove 12 is formed in the beancurd sheet forming frame body 11, a heating device is arranged below the beancurd sheet groove 12, the heating device can select common heating modes such as electromagnetic heating, electric heating and steam heating, and the steam heating mode is selected for use in the embodiment. The skinning groove 12 below is provided with steam and holds chamber 13, and steam holds chamber 13 and includes the steam air inlet, and the steam air inlet setting of this embodiment is on steam holds the lateral wall of chamber 13, and high temperature steam gets into steam through the steam air inlet and holds the chamber 13 in, and high temperature steam heats the soybean milk in the skinning groove 12 through the diapire of skinning groove 12. It is worth noting that the pressure regulating device 7 is arranged at the bottom of the steam accommodating cavity 13, and the pressure regulating device 7 can regulate the pressure of the steam accommodating cavity 13 to prevent the steam accommodating cavity 13 from being exploded due to overhigh pressure. Preferably, the pressure regulating device 7 is provided in plurality and uniformly distributed below the steam accommodating cavity 13.

As shown in fig. 3, the pressure regulating device 7 includes a pressure regulating tank 71, a condensed water containing space is provided in the pressure regulating tank 71 for containing condensed water, a pressure regulating pipe 72 is provided above the pressure regulating tank 71, and steam and condensed water in the steam containing cavity 13 can enter the pressure regulating tank 71 through the pressure regulating pipe 72. An inlet of the pressure regulating pipe 72 is connected with the steam accommodating cavity 13, and an outlet of the pressure regulating pipe 72 extends into the pressure regulating tank 71, is close to the bottom of the pressure regulating tank 71 and is arranged below the liquid level of condensed water, so that the steam accommodating cavity 13 is kept sealed; a pressure discharge pipe 73 is arranged below the pressure regulating tank 71, an outlet of the pressure discharge pipe 73 is connected with the outside, an inlet of the pressure discharge pipe 73 is arranged close to the top of the pressure regulating tank 71 and above the liquid level of condensed water, and when the liquid level of the condensed water exceeds the inlet of the pressure discharge pipe 73, the condensed water can be discharged through the pressure discharge pipe 73.

The working principle of the pressure regulating tank 71 is as follows: because the high-temperature steam needs to be continuously input into the steam accommodating cavity 13 to ensure the temperature of the soybean milk, the pressure in the steam accommodating cavity 13 can be continuously increased along with the continuous input of the high-temperature steam, the liquid level in the pressure regulating pipe 72 is gradually reduced along with the increase of the pressure, the liquid level of the condensed water in the pressure regulating tank 71 is gradually increased, and if the liquid level of the condensed water in the pressure regulating tank 71 is higher than the inlet of the pressure discharge pipe 73, the condensed water can be discharged through the pressure discharge pipe 73; when the condensed water in the pressure regulating pipe 72 is completely drained, the steam is drained into the condensed water in the pressure regulating tank 71 through the outlet of the pressure regulating pipe 72, then the steam floats upwards to the space between the liquid level of the condensed water and the top wall of the pressure regulating tank, and finally the steam is discharged through the pressure discharging pipe 73, so that the pressure in the steam accommodating cavity 13 is reduced. When the pressure in the steam accommodating cavity 13 is reduced, the condensed water in the pressure regulating tank 71 enters the pressure discharge pipe 73, so that the steam accommodating cavity 13 is kept sealed.

Preferably, the air blower 14 is arranged below the beancurd sheet forming frame body 11, the air blower 14 is connected with the exhaust pipe 15, the exhaust pipe 15 is provided with an air delivery pipe, the air delivery pipe is connected with the air injection pipe 16, the air injection pipe 16 is provided with an air injection hole, and the air injection hole is arranged above the skinning groove 12 and can inject air to the surface of the soybean milk in the skinning groove 12 so as to accelerate the skinning of the surface of the soybean milk.

As shown in fig. 4 and 5, the bean curd stick rounding device 2 comprises a rounding fixing column 21, the rounding fixing column 21 is fixedly arranged on the bean curd sheet forming frame body 11, a rounding mounting plate 22 is arranged on the rounding fixing column 21, a rounding roller 23 is movably arranged on the rounding mounting plate 22, the rounding roller 23 is connected with a rounding driving mechanism, and the rounding driving mechanism can drive the rounding roller 23 to move so as to round the sheet-shaped bean curd sheets into cylindrical bean curd sticks.

Specifically, two groups of rollers 24 are respectively arranged on two sides of the rounding mounting plate 22, each group of rollers 24 is two, the two rollers 24 are arranged up and down, the rollers 24 are U-shaped, and a channel is formed between the two rollers 24; the rounding roller 23 is connected with the rounding guide rail 25, the rounding roller 23 can rotate relative to the rounding guide rail 25, the rounding guide rail 25 is matched with a channel between the two rollers 24, and the rounding guide rail 25 can move relative to the rollers 24. The rounding driving mechanism is connected with the rounding guide rail 25 and can drive the rounding guide rail 25 to move. The rounding driving mechanism comprises a rounding connecting rod 26 and a rounding wheel 27, one end of the rounding connecting rod 26 is connected with the rounding guide rail 25, the other end of the rounding connecting rod 26 is connected with the rounding wheel 27, the rounding wheel 27 is connected with a rounding motor 28, and the rounding wheel 27 rotates to drive the rounding guide rail 25 to move left and right repeatedly.

The first conveying device 3 comprises a first frame body 33, the first frame body 33 is fixedly connected with the beancurd sheet forming frame body 11, and the first conveying device is arranged above the beancurd sheet forming frame body 11. The first conveyor belt is annularly arranged on the first frame body 33, specifically, a first conveying rotating shaft 34 and a second conveying rotating shaft 35 are respectively arranged at two ends of the first frame body 33, and a third conveying rotating shaft 36 is arranged on the beancurd sheet forming frame body 11 at one side of the rounding fixing column 21 far away from the first frame body 33; the first conveying belt comprises a circle rubbing part 31 and a first conveying part 32, the first conveying belt is annularly arranged on three rotating shafts, the part between the first conveying rotating shaft 34 and the second conveying rotating shaft 35 is the first conveying part 32, and the part between the second conveying rotating shaft 35 and the third conveying rotating shaft 36 is the circle rubbing part 31. Preferably, the first frame 33 is provided with a plurality of supporting plates 37, and the supporting plates 37 are disposed below the first conveying unit 32 to support the first conveying unit 32. It should be noted that, a drying mechanism 38 is further disposed on the first frame 33 for drying the dried beancurd sticks on the first conveying portion 32. The drying mechanism 38 may be a fan or other conventional drying device.

Further, the rounding part 31 is connected with the first conveying part 32, the first conveying part 32 is arranged parallel to the crust groove 12 and is arranged above the crust groove 12, the rounding part 31 is obliquely arranged relative to the crust groove 12, one end of the rounding part 31 is arranged close to the crust groove 12, and the other end of the rounding part is connected with the first conveying part 32. The rounding roller 23 is arranged above the rounding portion 31, and the rounding roller 23 can move left and right relative to the rounding portion 31 and can rotate relative to the rounding portion 31. It is noted that the height of the rounding mounting plate 22 is adjustable, so as to adjust the distance of the rounding roller 23 relative to the rounding portion 31.

As shown in fig. 1 and fig. 2, the bean curd stick rounding device 2 of this embodiment is disposed in the middle of the crust forming groove 12, a cutting component 8 is disposed on a side of the bean curd stick rounding device 2 away from the first frame 33, and the cutting component 8 can cut the bean curd sheets in the crust forming groove 12 into a plurality of pieces, so that a plurality of bean curd sticks are formed after being kneaded by the bean curd stick rounding device 2.

The slitting component 8 comprises a cutter fixing seat 81, the cutter fixing seat 81 is arranged on two sides of the skinning groove 12, a cutter mounting shaft is arranged on the cutter fixing seat 81, and a sleeve of the cutter 82 is arranged on the cutter mounting shaft. The other end of the cutter 82 is provided with a circular blade which can rotate around the shank of the cutter 82. A slitting shaft 83 is arranged between the cutter fixing seat 81 and the rounding part 31, and the circular blade can be abutted against the slitting shaft 83.

The skinning groove 12 comprises a first skinning groove 121, a second skinning groove 122 and a slurry discharge groove 123, and the first skinning groove 121, the slurry discharge groove 123 and the second skinning groove 122 are sequentially connected. It is noted that the pulp discharge groove 123 is arranged on the side of the dividing and cutting shaft 83 far away from the bean curd stick rounding device 2. The soybean milk feeding port is respectively arranged at one end of the first crust groove 121 and the second crust groove 122 far away from the soybean milk discharging groove 123, the lower end of the soybean milk discharging groove 123 is provided with a soybean milk discharging port, and the soybean milk discharging port is connected with a soybean milk recovery device. The soybean milk is conveyed into the first skinning groove 121 and the second skinning groove 122 through the soybean milk feed port and flows into the soybean milk discharge groove 123, and the skinned low-concentration soybean milk flows into the soybean milk recovery device through the soybean milk discharge port. The stability of the content of nutrients such as protein in the soybean milk can be ensured by the arrangement, so that the quality of the dried beancurd sticks is ensured. In addition, the low-concentration soybean milk and the high-concentration soybean milk in the soybean milk recovery device can be continuously used after being mixed, so that the cost is saved.

As shown in fig. 6 and 7, the second conveying device 4 includes a second frame body 41, a second conveying belt 42 is annularly disposed on the second frame body 41, and the output end of the first conveying device 3 is disposed above the second conveying belt 42 of the second conveying device 4. One end of the second conveying device 4 close to the steering conveying device 5 is provided with a softening groove 43, one side of the softening groove 43 far away from the second conveying belt 42 is provided with a dried bean conveying shaft 44, and dried beancurd sticks on the second conveying device 4 are softened by the softening groove 43 and then conveyed to the steering conveying device 5 by the dried beancurd stick conveying shaft 44. Preferably, the softening tank 43 is a tank body with an opening at the top, a softening pressure lever 45 is arranged at the opening of the tank body, the dried beancurd sticks are firstly conveyed to the position below the softening pressure lever 45 from the second conveyor belt 42 and then conveyed to the position above the dried beancurd stick conveying shaft 44, and the softening pressure lever 45 can ensure that the dried beancurd sticks are soaked in the softening tank 43.

The steering conveying device 5 comprises a steering frame body 51, a steering conveying belt 52 is annularly arranged on the steering frame body 51, a steering turnover mechanism 53 is arranged at one end, connected with the second conveying device 4, of the steering conveying device 5, the steering turnover mechanism 53 comprises a first steering adjusting plate 531 and a second steering adjusting plate 532, the first steering adjusting plate 531 and the second steering adjusting plate 532 are fixedly arranged above the steering frame body 51 and are perpendicular to the length direction of the steering frame body 51, a plurality of steering shafts 533 are arranged on the first steering adjusting plate 531 and the second steering adjusting plate 532, one end of each steering shaft 533 is connected with the first steering adjusting plate 531, the other end of each steering shaft 533 is connected with the second steering adjusting plate 532, and the steering shafts 533 can rotate relative to the first steering adjusting plate 531 and the second steering adjusting plate 532.

Specifically, the first steering adjustment plate 531 and the second steering adjustment plate 532 are provided with a plurality of grooves, and two ends of the steering shaft 533 are respectively accommodated in the grooves, so as to connect the steering shaft 533 with the first steering adjustment plate 531 and the second steering adjustment plate 532. As shown in fig. 8, the end of the steering shaft 533 is provided with a screw, the end of the screw is provided with a nut, the screw is received in a groove on one steering adjustment plate and the second steering adjustment plate 532, and the rotating nut can lock the rotating shaft.

The working principle of the steering conveying device 5 is as follows: the dried beancurd sticks close to the inner side of the second conveyor belt 42 (the side of the second conveyor belt 42 close to the first conveying device is the inner side) are connected with the first end part of the steering shaft 533 (the end of the steering shaft 533 far away from the end part of the steering conveying device 5 is the first end part); the dried beancurd sticks on the second conveyor belt 42 close to the outer side (the side of the second conveyor belt 42 far away from the first conveying device is the outer side) are connected with the second end part of the steering shaft 533 (the end of the steering shaft 533 close to the end of the steering conveying device 5 is the second end part). Therefore, by turning over the turning shaft 533, the outer dried beancurd sticks on the second conveyor belt 42 can be conveyed to the side edge (the side close to the second conveying device) of the turning conveyor belt 52, and the inner dried beancurd sticks on the second conveyor belt 42 can be conveyed to the middle part of the turning conveyor belt 52 while the dried beancurd sticks are turned. This eliminates the difference in distance between the inside and outside bean curd sticks on the second conveyor belt 42 due to the turning.

Specifically, if the inside dried beancurd sticks and the outside dried beancurd sticks on the second conveyor belt 42 are directly turned, the inside dried beancurd sticks fall on the side edge of the turning conveyor belt 52, and the outside dried beancurd sticks fall on the middle part of the turning conveyor belt 52, so that the distance conveyed by the inside dried beancurd sticks is smaller than that conveyed by the outside dried beancurd sticks, and a distance difference is generated, so that a plurality of dried beancurd sticks on the turning conveyor belt 52 are gathered together, the conveying effect is affected, and the subsequent processes are inconvenient to perform.

As shown in fig. 9-11, the cutting and conveying device 6 includes a cutting frame body 61, a cutting conveyor belt 62 is annularly disposed on the cutting frame body 61, a cutting assembly 63 is disposed at one end of the cutting frame body 61 connected to the steering conveying device 5, an output end of the steering conveying device 5 is disposed above an inlet of the cutting assembly 63, the dried beancurd sticks on the steering conveying device 5 enter the cutting assembly 63 through the inlet of the cutting assembly 63, and the dried beancurd sticks after being cut fall on the cutting conveyor belt 62 and are conveyed out for packaging.

The cutting assembly 63 comprises a cutting side plate 631, the cutting side plates 631 are two, the cutting side plates are symmetrically and fixedly arranged on the cutting frame body 61, the cutting assembly 63 further comprises a first cutting shaft and a second cutting shaft, cutting knives 632 are arranged on the first cutting shaft and the second cutting shaft, two ends of the first cutting shaft and two ends of the second cutting shaft are movably arranged on the two cutting side plates 631, one ends of the first cutting shaft and the second cutting shaft are connected with a cutting driving assembly 633, the cutting driving assembly 633 can drive the first cutting shaft and the second cutting shaft to rotate, and the dried beancurd sticks can be cut off by rotating the two cutting knives 632.

Specifically, the cutting side plate 631 is provided with a first square hole and a second square hole, and the first cutting shaft passes through the first square hole and is disposed on the cutting side plate 631 through the bearing seat. The second square hole is provided with a slide block, and two sides of the slide block are respectively provided with a slide block limiting plate 634 which limits the slide block in the second square hole. The sliding block can move in the second square hole. The second cutting shaft is fixed by a bearing seat on the inner side of the slider limiting plate 634, and it is noted that a cutting shaft through hole is formed on the slider limiting plate 634 and the slider on the side connected to the cutting driving assembly 633, and the second cutting shaft passes through the cutting shaft through hole and is connected to the cutting driving assembly 633.

The cutting driving assembly 633 comprises a cutting motor 635 and a transmission assembly 636, the cutting motor 635 is connected with the transmission assembly 636, the transmission assembly 636 is respectively connected with the first cutting shaft and the second cutting shaft, the cutting motor 635 can drive the first cutting shaft and the second cutting shaft to rotate oppositely, namely, the first cutting shaft and the second cutting shaft rotate in opposite directions, and the cutting edges of the two cutting knives 632 can be contacted when the first cutting shaft and the second cutting shaft rotate so as to cut the dried beancurd sticks. The cut dried beancurd sticks are conveyed to the next process, for example, the packaging of the dried beancurd sticks, through the cutting conveyer 62.

In the embodiment, the transmission assembly 636 adopts gear transmission, the cutting motor 635 is connected with a first gear, the first gear is connected with a second gear, and the second gear is connected with a first cutting shaft; the first gear is also connected with a third gear, the third gear is connected with a fourth gear, and the fourth gear is connected with a second cutting shaft; so as to realize the opposite rotation of the first cutting shaft and the second cutting shaft.

Preferably, an elastic member 637 is provided at a side of the slider away from the first cutting shaft, and one end of the elastic member 637 is connected to the slider and the other end is connected to the cutting side plate 631. When foreign matters enter the cutting assembly 63 or a plurality of entering dried beancurd sticks are gathered together, the two cutting knives 632 are prevented from being clamped to damage the cutting device. The elastic component 637 of this embodiment includes a spring, one end of which is connected to a fixed post on the slider and the other end of which is connected to a fixed post on the cutoff side plate 631.

Preferably, a cutting cover 638 is disposed above the cutting assembly 63, and a long opening is disposed on the cutting cover 638, and corresponds to a position where the two cutting knives 632 overlap. The cut-off cover body 638 and the elongated opening can play a role in guiding the dried beancurd sticks, and the dried beancurd sticks can be effectively cut off.

The working principle of the utility model is as follows: due to the flow of the soybean milk and the blowing of the air injection pipe 16, the beancurd sheets formed in the first beancurd sheet groove 121 and the second beancurd sheet groove 122 move towards the middle, the beancurd sheets formed in the first beancurd sheet groove 121 and the second beancurd sheet groove 122 are lifted at the position between the cutter fixing seat 81 and the slitting shaft 83 and are wound on the slitting shaft 83, and it is worth noting that the surfaces with the soybean milk of the beancurd sheets formed in the first beancurd sheet groove 121 and the second beancurd sheet groove 122 are attached together. The circular blades are abutted against the cutting shaft 83, so that the bean curd sheets are cut into a plurality of sheets, the sheets of the bean curd sheets on the cutting shaft 83 are connected with the rolling part 31, cylindrical bean curd sticks are formed under the rolling of the rolling roller 23 and then are conveyed to the first conveying part for drying, the dried bean curd sticks are conveyed to the second conveying device 4 through the first conveying part 32, the bean curd sticks on the second conveying device 4 are conveyed to the turning conveying belt 52 through the turning overturning mechanism 53, the bean curd sticks on the turning conveying belt 52 are conveyed to the cutting device through the turning conveying belt 52 for cutting, the cut bean curd sticks are conveyed out through the cutting conveying belt 62, and finally the bean curd sticks are packaged.

The cylindrical bean curd stick forming mechanism is ingenious in design, bean curd sticks are produced by adopting continuously flowing soybean milk, and the quality of the bean curd sticks is stable; the rolling shaft moving left and right is used for forming the dried beancurd sticks, so that the dried beancurd sticks are compact and have good taste; the bean curd sticks are turned and overturned by the turning and overturning mechanism, so that the bean curd sticks are conveyed more flexibly, and the equipment is convenient to arrange. In addition, the utility model has high automation degree, greatly reduces the number of workers, simultaneously lightens the labor intensity of the workers and improves the efficiency.

The present invention has been further described with reference to specific embodiments, but it should be understood that the detailed description should not be construed as limiting the spirit and scope of the present invention, and various modifications made to the above-described embodiments by those of ordinary skill in the art after reading this specification are within the scope of the present invention.

Claims (10)

1. A cylindrical beancurd sheet forming mechanism is characterized by comprising a beancurd sheet forming device and a beancurd sheet rounding device, wherein sheet beancurd sheets are formed on the beancurd sheet forming device, the beancurd sheet rounding device is arranged above the beancurd sheet forming device, the beancurd sheet rounding device comprises a rounding fixed column, the rounding fixed column is fixedly arranged on the beancurd sheet forming device, a rounding mounting plate is arranged on the rounding fixed column, a rounding roller is movably arranged on the rounding mounting plate, the rounding roller is connected with a rounding driving mechanism, and the rounding driving mechanism can drive the rounding roller to move so as to knead the sheet beancurd sheets into cylindrical beancurd sheets; the bean curd stick rounding device is connected with the conveying device, a drying mechanism is arranged above the conveying device, and the drying mechanism can dry the cylindrical bean curd sticks.

2. The cylindrical dried bean forming mechanism of claim 1, wherein two sets of rollers are respectively arranged on two sides of the rounding mounting plate, each set of rollers is two, the two rollers are arranged up and down, the rollers are U-shaped, and a channel is formed between the two rollers; the rounding roller is connected with a rounding guide rail, the rounding guide rail is matched with a channel between the two rollers, and the rounding guide rail can move relative to the rollers; the circle rubbing driving mechanism is connected with the circle rubbing guide rail and can drive the circle rubbing guide rail to move.

3. The mechanism for forming cylindrical dried beancurd sticks as claimed in claim 2, wherein the rounding driving mechanism comprises a rounding connecting rod and a rounding wheel, one end of the rounding connecting rod is connected with the rounding guide rail, the other end of the rounding connecting rod is connected with the rounding wheel, the rounding wheel is connected with a rounding motor, and the rounding wheel rotates to drive the rounding guide rail to move left and right repeatedly.

4. The cylindrical beancurd stick forming mechanism according to claim 2, wherein the conveying device comprises a conveying frame body, the conveying frame body is fixedly connected with the beancurd sheet forming device and is arranged above the beancurd sheet forming device, and the conveying belt is annularly arranged on the conveying frame body.

5. The cylindrical dried bean curd stick forming mechanism according to claim 4, wherein a first conveying rotating shaft and a second conveying rotating shaft are respectively arranged at two ends of the conveying frame body, and a third conveying rotating shaft is arranged on the dried bean curd sheet forming device at one side of the rounding fixing column far away from the conveying frame body; the conveying belt is annularly arranged on the three rotating shafts, the part between the first conveying rotating shaft and the second conveying rotating shaft is a conveying part, the part between the second conveying rotating shaft and the third conveying rotating shaft is a circle rubbing part, the circle rubbing roller is arranged above the circle rubbing part, and the circle rubbing roller can move left and right relative to the circle rubbing part and can rotate relative to the circle rubbing part.

6. The cylindrical dried bean curd stick forming mechanism according to claim 5, wherein the rounding unit is connected to the conveying unit, the conveying unit is disposed parallel to and above the dried bean curd sheet forming unit, the rounding unit is disposed obliquely with respect to the dried bean curd sheet forming unit, one end of the rounding unit is disposed close to the dried bean curd sheet forming unit, and the other end thereof is connected to the conveying unit.

7. The cylindrical dried bean forming mechanism as claimed in claim 5, wherein the conveying frame is provided with a plurality of support plates, and the support plates are disposed below the conveying part to support the conveying part.

8. The cylindrical beancurd stick forming mechanism according to claim 4, wherein the beancurd stick rounding device is arranged in the middle of the beancurd sheet forming device, a cutting component is arranged on one side of the beancurd stick rounding device away from the conveying frame body, and the cutting component can cut beancurd sheets on the beancurd sheet forming device into a plurality of pieces, so that a plurality of beancurd sticks are formed after being kneaded by the beancurd stick rounding device.

9. The mechanism of claim 8, wherein the cutting assembly comprises a cutter holder disposed on both sides of the beancurd sheet forming device, the cutter holder is provided with a cutter mounting shaft, one end of the cutter is sleeved on the cutter mounting shaft, the other end of the cutter is provided with a circular blade, the circular blade can rotate around the handle of the cutter, and the cutter can cut the beancurd sheets on the beancurd sheet forming device into a plurality of sheets.

10. The cylindrical dried bean curd stick forming mechanism of claim 9, wherein a cutting shaft is provided between the cutter holder and the rounding portion, the circular blade can abut against the cutting shaft, and the sheet of dried bean curd is cut on the cutting shaft.

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