CN218977882U - Automatic dough pressing and cutting machine - Google Patents

Abstract

The utility model relates to the technical field of dough cutting machines and discloses an automatic dough pressing dough cutting machine which comprises a machine tool, wherein a conveying belt is arranged in the machine tool, dough pressing rollers positioned at the top of the conveying belt are arranged in the machine tool, an adjusting rod positioned above the conveying belt is arranged in the machine tool, a plurality of dough cutting mechanisms which are uniformly distributed are arranged outside the adjusting rod, transmission mechanisms are arranged on the front side and the rear side of the machine tool, and a driving frame is arranged outside the machine tool. According to the noodle cutting machine, the plurality of noodle cutting mechanisms can be driven to rotate simultaneously to cut noodles through the transmission mechanism, and meanwhile, the section cutter can be continuously and intermittently driven to move up and down under the cooperation of the driving gear and the driving frame, so that noodles can be cut to a required length, the length of a cut section can be adjusted through adjusting the gear ratio of the driving gear and the driven gear or the driving gear and the driving frame, and repeated debugging of two procedures of cutting and cutting is avoided.

Description

Automatic dough pressing and cutting machine

Technical Field

The utility model relates to the technical field of dough cutting machines, in particular to an automatic dough pressing and cutting machine.

Background

The dough pressing dough cutting machine is equipment for pressing dough into required thickness and then cutting, in the prior art, when the dough is cut into noodles, two directions are needed to cut dough into strips firstly, then the strips are cut into strips to be longer to be of required length, but two cutting mechanisms used in the prior art are mutually independent, the running speed of the dough pressing dough cutting machine and the dough cutting machine are required to be adjusted repeatedly, once the running speeds of the dough pressing dough cutting machine and the dough cutting machine are not matched, the dough cutting machine can cut the dough into strips because the front end cutting machine continuously operates, once the rear end cutting machine does not act in time, continuous long sections can be cut, accordingly, the length of the continuously cut noodles is not uniform, the quality of products is reduced, and therefore the dough cutting machine needs to be improved.

Disclosure of Invention

In order to overcome the defects of the prior art, the utility model provides an automatic dough pressing and cutting machine, which has the advantages of convenient debugging and wide application range.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the automatic dough pressing and dough cutting machine comprises a machine tool, a conveying belt is arranged in the machine tool, dough pressing rollers arranged at the top of the conveying belt are arranged in the machine tool, an adjusting rod arranged above the conveying belt is arranged in the machine tool, a plurality of dough cutting mechanisms which are evenly distributed are arranged outside the adjusting rod, transmission mechanisms are arranged on the front side and the rear side of the machine tool, a driving frame is arranged outside the machine tool, two positioning connecting rods are fixedly connected with the bottom of the driving frame, the lower ends of the positioning connecting rods extend to the upper portion of the conveying belt and are fixedly connected with a section cutter, the transmission mechanisms comprise transmission rods arranged inside the machine tool and above the conveying belt, two ends of the transmission rods penetrate through the machine tool and are fixedly connected with driving gears, driven gears are connected with two ends of the adjusting rod in a meshed mode, driving gears are fixedly connected to the back faces of the driving gears, the cambered surfaces of the outer surfaces of the driving gears are tooth cambered surfaces, and tooth cambered surfaces of the driving gears are meshed with teeth on one side faces of the driving gears.

As a preferable technical scheme of the utility model, the section cutting mechanism comprises two section cutting guide rollers which are mutually attached, the inner sides of the section cutting guide rollers are fixedly connected with fastening sleeves, the side surfaces of the two section cutting guide rollers are provided with connecting grooves, connecting rods are arranged in the connecting grooves, and the two section cutting guide rollers or the fastening sleeves are connected through the matching of the connecting grooves and the connecting rods.

As a preferable technical scheme of the utility model, the top of the machine tool is provided with the mounting frame positioned below the inner side of the driving frame, the mounting frame is movably sleeved outside the positioning connecting rod, front and rear two return springs which are wound outside the positioning connecting rod are arranged between the mounting frame and the driving frame, and two ends of each return spring are respectively propped against the driving frame or the mounting frame.

As a preferable technical scheme of the utility model, two ends of the conveying belt are both wound with a conveying rod, and the rear end of the conveying rod extends to the rear of the machine tool and is connected with the machine tool through a second driving belt.

As a preferable technical scheme of the utility model, the outer part of one transmission rod is in transmission connection with the transmission mechanism through a first transmission belt arranged between the machine tool and the second transmission belt, and the first transmission belt is sleeved on the outer part of the transmission rod and is positioned between the machine tool and the driving gear.

As a preferable technical scheme of the utility model, three-quarter cambered surfaces of the outer surface of the driving gear are tooth surfaces, and one-fourth cambered surfaces of the outer surface of the driving gear are smooth cambered surfaces, wherein the three-quarter tooth cambered surfaces are meshed with the driving frame.

As a preferable technical scheme of the utility model, the front side and the rear side of the machine tool are respectively provided with an adjusting groove positioned above the conveying belt, a plurality of positioning transmission shafts are arranged in the adjusting grooves through bolts, and the positioning transmission shafts are sleeved outside the surface pressing roller, the adjusting rod and the transmission rod through bearings.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the utility model, the conveyer belt continuously transmits dough sheets through the cooperation of the transmission mechanism and the first transmission belt, and meanwhile, the dough sheets can be cut into long strips through the cooperation of the conveyer belt by driving the plurality of dough cutting mechanisms to rotate simultaneously through the adjusting rod, and meanwhile, the section cutter can be continuously and intermittently driven to move up and down through the cooperation of the driving gear and the driving frame, so that the long strips cut by the dough cutting mechanisms can be cut into required lengths through the cooperation of the conveyer belt, the effect of synchronous and integrated cutting and sectioning is achieved, and the length of the sections can be adjusted through adjusting the gear ratio of the driving gear to the driven gear or the driving gear to the driving frame, so that repeated debugging of two procedures of cutting and sectioning is avoided.

2. According to the utility model, the detachable noodle cutting mechanism is used for conveniently adjusting the spacing between the integral cutting tools for cutting the noodles with different widths so as to finish the processing of the noodles with different widths, and the detachable noodle cutting mechanism is used for conveniently carrying out daily storage, maintenance and cleaning, so that the labor intensity of operators is greatly reduced.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions of the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are some embodiments of the present utility model, and other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

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

FIG. 2 is a schematic view of the structure of the back surface of the present utility model;

FIG. 3 is a schematic top view of a portion of the present utility model;

FIG. 4 is an enlarged partial schematic view of FIG. 3A;

FIG. 5 is a schematic view of a section cutting mechanism according to the present utility model.

In the figure: 1. a machine tool; 2. a conveyor belt; 3. a dough pressing roller; 4. an adjusting rod; 5. a section cutting mechanism; 51. a section guide roller; 52. a fastening sleeve; 53. a connecting groove; 54. a connecting rod; 6. a transmission mechanism; 61. a drive gear; 62. a driven gear; 63. a drive gear; 64. a transmission rod; 7. a drive rack; 8. positioning a connecting rod; 9. a section cutter; 10. positioning a transmission shaft; 11. a mounting frame; 12. a return spring; 13. a first belt; 14. a second belt; 15. and an adjusting groove.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions in the embodiments of the present utility model are clearly and completely described below, and it is obvious that the described embodiments are some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are also within the scope of the utility model.

As shown in fig. 1 to 5, the automatic dough pressing and dough cutting machine provided by the utility model comprises a machine tool 1, wherein a conveying belt 2 is arranged in the machine tool 1, a dough pressing roller 3 positioned at the top of the conveying belt 2 is arranged in the machine tool 1, an adjusting rod 4 positioned above the conveying belt 2 is arranged in the machine tool 1, a plurality of dough cutting mechanisms 5 which are uniformly distributed are arranged outside the adjusting rod 4, a transmission mechanism 6 is arranged on the front side and the rear side of the machine tool 1, a driving frame 7 is arranged outside the machine tool 1, a front positioning connecting rod 8 and a rear positioning connecting rod 8 are fixedly connected to the bottom of the driving frame 7, the lower end of the positioning connecting rod 8 extends to the upper side of the conveying belt 2 and is fixedly connected with a section cutter 9, and the section cutter 9 moves downwards along with the positioning connecting rod 8 and the driving frame 7 and finally contacts with the top of the conveying belt 2; the transmission mechanism 6 comprises a transmission rod 64 arranged inside the machine tool 1 and above the conveying belt 2, two ends of the transmission rod 64 penetrate through the machine tool 1 and are fixedly connected with a driving gear 61, a driven gear 62 is connected to the side face of the driving gear 61 in a meshed mode, the driven gear 62 is fixedly connected with two ends of the adjusting rod 4, a driving gear 63 is fixedly connected to the back face of the driving gear 61, part of cambered surfaces on the outer surface of the driving gear 63 are tooth cambered surfaces, and the tooth cambered surfaces are meshed with teeth on one side face, close to the driving gear 63, of the driving frame 7.

When the driving gear 61 at two ends of the transmission rod 64 rotates, the driving gear 61 drives the driven gear 62 and the driving gear 63 to rotate simultaneously, the driven gear 62 drives the adjusting rod 4 to rotate when rotating, the adjusting rod 4 rotates to drive the dough cover to be cut into strips under the cooperation of the conveying belt 2, when the driving gear 63 rotates, as part of cambered surface of the outer surface of the driving gear 63 is tooth cambered surface, when the part of cambered surface is meshed with teeth of the driving frame 7, the driving gear 63 drives the driving frame 7 to move downwards, the driving frame 7 drives the section cutter 9 to move downwards through the positioning connecting rod 8, so that the section cutter 9 finally contacts with the top of the conveying belt 2, the strips cut by the dough cover mechanism 5 are cut to a required length, when the tooth cambered surface of the outer surface of the driving gear 63 is not meshed with the teeth of the driving frame 7 any more, namely, the smooth cambered surface of the driving gear is close to the driving frame 7, no meshed driving frame 7 acts downwards at the moment, and the driving frame 7 moves upwards, so that the next section cutting procedure is entered. Therefore, when the conveyer belt 2 continuously transmits dough sheets through the cooperation of the transmission mechanism 6, the plurality of dough cutting mechanisms 5 can be driven to rotate simultaneously through the adjusting rod 4, so that the dough sheets are cut into long strips under the cooperation of the conveyer belt 2, and meanwhile, the section cutter 9 can be continuously and intermittently driven to move up and down under the cooperation of the driving gear 63 and the driving frame 7, so that the long strips cut by the dough cutting mechanisms 5 can be cut into required lengths under the cooperation of the conveyer belt 2, and the effect of synchronous and integrated shredding and cutting is achieved. The length of the cut section can be adjusted by adjusting the gear ratio of the driving gear 63 and the driving frame 7, so that repeated debugging of two procedures of shredding and cutting is avoided.

The section cutting mechanism 5 comprises two section cutting guide rollers 51 which are mutually attached, the inner sides of the section cutting guide rollers 51 are fixedly connected with fastening sleeves 52, the side surfaces of the two section cutting guide rollers 51 are provided with connecting grooves 53, connecting rods 54 are arranged in the connecting grooves 53, and the two section cutting guide rollers 51 or the fastening sleeves 52 are connected through the matching of the connecting grooves 53 and the connecting rods 54;

through detachable tangent plane mechanism 5, make things convenient for the regulation of shredding whole cutter interval to accomplish the processing of different width noodless, and made things convenient for daily deposit, maintenance and clearance through detachable tangent plane mechanism 5, reduced operating personnel's intensity of labour.

The top of the machine tool 1 is provided with a mounting frame 11 positioned below the inner side of the driving frame 7, the mounting frame 11 is movably sleeved outside the positioning connecting rod 8, a front reset spring 12 and a rear reset spring 12 which are connected with the outer part of the positioning connecting rod 8 in a winding manner are arranged between the mounting frame 11 and the driving frame 7, and two ends of the reset spring 12 are respectively propped against the driving frame 7 and the mounting frame 11;

the driving frame 7 can be stably moved through the mounting frame 11 under the cooperation of the positioning connecting rod 8, the driving frame 7 is ensured to be meshed with the driving gear 63 all the time, the driving frame 7 drives the section cutter 9 to move downwards and cut off through the positioning connecting rod 8, and when the tooth cambered surface of the outer surface of the driving gear 63 is not meshed with the tooth of the driving frame 7 any more, the section cutter 9 can be driven to reversely move and reset through the driving frame 7 and the positioning connecting rod 8 under the action of the elasticity of the reset spring 12.

Wherein, the both ends of conveyer belt 2 all wrap around and have the transfer line, and the rear end of transfer line extends to the rear of lathe 1 and links to each other through second drive belt 14.

When one of the transfer bars rotates (e.g., by a motor), the other transfer bar can be rotated by the second conveyor belt 14, thereby moving the conveyor belt 2.

Wherein the outside of one of the transmission rods is in transmission connection with the transmission mechanism 6 through a first transmission belt 13 arranged between the machine tool 1 and a second transmission belt 14, and the first transmission belt 13 is sleeved outside a transmission rod 64 and is positioned between the machine tool 1 and a driving gear 61;

when one of the transmission rods rotates, the driving gear 61 is driven to rotate by the first transmission belt 13.

Wherein three-quarter cambered surfaces of the outer surface of the driving gear 63 are tooth surfaces, and one-fourth cambered surfaces of the outer surface of the driving gear 63 are smooth cambered surfaces, wherein three-quarter tooth cambered surfaces are meshed with the driving frame 7;

the three-quarters tooth cambered surfaces can be matched with the driving frame 7 to drive the section cutter 9 to move downwards to complete cutting, and the elastic force of the reset spring 12 can be ensured to push the driving frame 7 to move upwards under the action of the quarter smooth cambered surfaces, so that the section cutter 9 is driven to reset through the positioning connecting rod 8.

Wherein, the front and back sides of the machine tool 1 are provided with adjusting grooves 15 positioned above the conveyer belt 2, a plurality of positioning transmission shafts 10 are arranged in the adjusting grooves 15 through bolts, and the positioning transmission shafts 10 are sleeved outside the surface pressing roller 3, the adjusting rod 4 and the transmission rod 64 through bearings;

the cooperation through adjustment tank 15 and location transmission shaft 10 can be convenient for the operating personnel to press the face roller 3, adjust pole 4 and transfer line 64's position and adjust to satisfy the processing needs, and then both can press face roller 3, adjust pole 4 and transfer line 64's position fixing through the location transmission shaft 10, also can not produce the influence to the independent rotation of three simultaneously.

The working principle and the using flow of the utility model are as follows:

put the dough lump that kneads on the top of conveyer belt 2, make the dough lump by the roll-in roller 3 roll-in of the dough cake or flour skin under the transmission of conveyer belt 2, then make the flour skin by the transmission of conveyer belt 2 to the below of tangent plane mechanism 5, because the continuous operation of conveyer belt 2 can drive the rotation of adjusting lever 4 through drive mechanism 6, and the rotation of adjusting lever 4 can cut the flour skin under the restriction of conveyer belt 2, make it form noodless or rectangular, and can drive section cutter 9 through drive frame 7 and move down under the cooperation of drive gear 63, can cut off the face behind the slitting under the cooperation of conveyer belt 2.

Finally, it should be noted that the above embodiments are merely illustrative of the technical solution of the present utility model, and not limiting thereof; although the utility model has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art will appreciate that; the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the utility model.

Claims (7)

1. An automatic dough-pressing dough cutting machine comprises a machine tool (1), and is characterized in that: the inside of lathe (1) is provided with conveyer belt (2), the inside of lathe (1) is provided with pressure face roller (3) that are located conveyer belt (2) top, the inside of lathe (1) is provided with regulation pole (4) that are located conveyer belt (2) top, the externally mounted of regulation pole (4) has a plurality of tangent plane mechanisms (5) of evenly distributed, both sides all are provided with drive mechanism (6) around lathe (1), the outside of lathe (1) is provided with driving frame (7), two location connecting rods (8) around the bottom fixedly connected with of driving frame (7), the lower extreme of location connecting rod (8) extends to the top of conveyer belt (2) and fixedly connected with section cutter (9), drive mechanism (6) are including setting up in lathe (1) inside and conveyer belt (2) top transfer line (64), the both ends of transfer line (64) run through lathe (1) and fixedly connected with driving gear (61), the side of driving gear (61) is connected with driven gear (62), driven gear (63) are the cambered surface (63) is fixed surface, driven gear (63) are the cambered surface is connected with the cambered surface (63), the tooth cambered surface is meshed with teeth on one side surface of the driving frame (7) close to the driving gear (63).

2. The automatic dough cutting and pressing machine as defined in claim 1, wherein: the section mechanism (5) comprises two section guide rollers (51) which are mutually attached, the inner sides of the section guide rollers (51) are fixedly connected with fastening sleeves (52), the two side faces of the section guide rollers (51) are provided with connecting grooves (53), connecting rods (54) are arranged in the connecting grooves (53), and the two section guide rollers (51) or the fastening sleeves (52) are connected through the matching of the connecting grooves (53) and the connecting rods (54).

3. The automatic dough cutting and pressing machine as defined in claim 1, wherein: the top of lathe (1) is installed and is located mounting bracket (11) of drive frame (7) inboard below, the outside with location connecting rod (8) is established to mounting bracket (11) movable sleeve, be provided with around being provided with between mounting bracket (11) and drive frame (7) two reset spring (12) around outside location connecting rod (8), reset spring (12) both ends respectively with drive frame (7) or mounting bracket (11) looks up.

4. The automatic dough cutting and pressing machine as defined in claim 1, wherein: both ends of the conveying belt (2) are wound with conveying rods, and the rear ends of the conveying rods extend to the rear of the machine tool (1) and are connected through a second driving belt (14).

5. The automatic dough kneading dough cutting machine as recited in claim 4, wherein: one of the transmission rods is in transmission connection with the transmission mechanism (6) through a first transmission belt (13) arranged between the machine tool (1) and a second transmission belt (14), and the first transmission belt (13) is sleeved on the outer part of the transmission rod (64) and is positioned between the machine tool (1) and the driving gear (61).

6. The automatic dough cutting and pressing machine as defined in claim 1, wherein: three-quarter cambered surfaces of the outer surface of the driving gear (63) are tooth surfaces, and one-fourth cambered surfaces of the outer surface of the driving gear (63) are smooth cambered surfaces, wherein the three-quarter tooth cambered surfaces are meshed with the driving frame (7).

7. The automatic dough cutting and pressing machine as defined in claim 1, wherein: the machine tool is characterized in that adjusting grooves (15) positioned above the conveying belt (2) are formed in the front side and the rear side of the machine tool (1), a plurality of positioning transmission shafts (10) are mounted in the adjusting grooves (15) through bolts, and the positioning transmission shafts (10) are sleeved outside the surface pressing roller (3), the adjusting rods (4) and the transmission rods (64) through bearings.

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