CN215346706U - Dough kneading mechanism with adjustable direction for noodle processing - Google Patents

Abstract

The utility model relates to the technical field of noodle processing equipment, in particular to a direction-adjustable kneading mechanism for noodle processing, which solves the problem that the kneading efficiency of dough is influenced because the dough is subjected to inertial deformation in the kneading process in the prior art. The dough kneading mechanism with the adjustable direction for noodle processing comprises a dough kneading barrel body, wherein a feeding port is formed in the side end face of the dough kneading barrel body, and a discharging port is formed in the lower end face of the dough kneading barrel body. According to the utility model, the upper and lower electric pieces are controlled by the electric control box to be electrified in a circulating manner, so that the second air cylinder is pushed up and down in a reciprocating manner, the rotating plate rotates to enable the corresponding connecting shaft to rotate, further the corresponding first stirring plate and the second stirring plate rotate in an arc manner in the circumferential rotation stirring process, and the continuous change of the dough kneading angle is realized, so that the multi-direction dough kneading stirring treatment of dough is realized, the occurrence of the condition of inertial stirring of the dough is reduced, and the dough kneading efficiency is improved.

Description

Dough kneading mechanism with adjustable direction for noodle processing

Technical Field

The utility model relates to the technical field of noodle processing equipment, in particular to a direction-adjustable kneading mechanism for noodle processing.

Background

In the processing process of noodles, dough kneading treatment is needed, most of the existing dough kneading mechanisms are special-shaped dough kneading rod structures, however, in the regular circumferential rotation process, the walking path of the dough kneading rods is regular, so that the inertia deformation at the dough fixing position is caused, and the dough kneading efficiency of other areas of the dough is influenced;

therefore, the dough kneading mechanism with the adjustable direction for noodle processing is provided, and the two stirring plates with the inclination directions capable of changing are arranged in the circumferential rotation process, so that the situation that the dough is subjected to inertial deformation at the fixed position is reduced, and the dough kneading efficiency is improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a dough kneading mechanism with an adjustable direction for noodle processing, which solves the problem that the dough is subjected to inertial deformation in the dough kneading process in the prior art, so that the kneading efficiency of the dough is influenced.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides a dough kneading mechanism with adjustable noodle processing is with direction, includes the dough kneading staving, the side end face of dough kneading staving is equipped with the pan feeding mouth, the lower terminal surface of dough kneading staving is equipped with the discharge gate, the axis of rotation is installed to the inside axial lead position department of dough kneading staving, the bottom of dough kneading staving is installed and is used for driving axis of rotation pivoted motor, first stirring board and second stirring board are installed in the rotation of the outer wall both sides of axis of rotation, first stirring board and second stirring board form X shape structure, the top of dough kneading staving is installed and is used for injecing first stirring board and second stirring board and takes place pivoted actuating mechanism, and first stirring board and second stirring board circumference pivoted axial lead are perpendicular with the axial lead of axis of rotation.

Preferably, actuating mechanism is including installing at the support frame at kneading staving top, installing at the spacing bucket at kneading staving top, installing the automatically controlled box on the support frame and installing the second cylinder on the support frame, the fixed disk is installed to the extension end of second cylinder, the inboard of spacing bucket from top to bottom inlays in proper order and is equipped with three group's electric pieces, and three group's electric pieces are connected with three group's electric control switch electricity in the automatically controlled box respectively, and three group's electric control switch all are connected with the second cylinder electricity, install the singlechip in the automatically controlled box for three group's electric control switch's of programming open and close.

Preferably, the inside of axis of rotation is hollow structure, the inside central point of axis of rotation puts a fixedly connected with fixed plate, actuating mechanism still including rotating respectively and installing connecting axle, the fixed mounting at the fixed plate both sides change the board and be on a parallel with the axial lead of axis of rotation and install the push rod in commentaries on classics board one end, the bottom of second cylinder is extended to serve and is rotated and install the connection pad, and the top of two sets of push rods all with connection pad fixed connection, and the extension end of two sets of connecting axles runs through the axis of rotation respectively to with corresponding first stirring board and second stirring board fixed mounting.

Preferably, the axis of the connecting shaft coincides with the center line of the rotating plate, and the two groups of push rods are respectively positioned on two sides of the axis of the connecting shaft.

Preferably, the top of the kneading barrel body is provided with a first cylinder, the inner wall of the kneading barrel body is vertically and slidably connected with a pressing panel, the bottom end extension end of the first cylinder is fixedly connected with the pressing panel, and the center of the pressing panel is provided with a through hole for penetrating through a rotating shaft.

Preferably, the lower end face of the dough pressing plate is provided with a clamping groove for the first stirring plate and the second stirring plate to be inserted in a horizontal state, the clamping groove does not penetrate through the upper end face of the dough pressing plate, and the depth of the clamping groove is larger than the distance from the connecting shaft to the inner side bottom surface wall of the dough kneading barrel body.

The utility model has at least the following beneficial effects:

1. two electric slices circulation circular switch-on about through the control of automatically controlled box, realized the reciprocal promotion from top to bottom of second cylinder, the commentaries on classics board rotates and makes the connecting axle that corresponds rotate, and then realizes that first stirring board and the second stirring board that correspond rotate stirring in-process arc at the circumference and rotate, realizes the continuous change of kneading angle to the realization is handled the multi-direction kneading stirring of dough, has reduced the dough and has appeared the condition emergence of inertia stirring, thereby has improved the kneading efficiency of dough.

2. Push down the downward motion of pressure panel through first cylinder to in first stirring board and second stirring board inserted the draw-in groove of terminal surface under the pressure panel, the pressure panel discharges the dough from the discharge gate of kneading staving bottom, thereby has realized the mechanism of kneading convenient to the ejection of compact.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic view of a vertical cross-section structure of a kneading barrel body;

FIG. 2 is a schematic view of the driving mechanism;

FIG. 3 is a schematic view of the structure of the lower end face of the pressing panel;

fig. 4 is a schematic cross-sectional view of the rotating shaft.

In the figure: 1. a dough kneading barrel body; 2. a feeding port; 3. a rotating shaft; 4. a first stirring plate; 5. a second stirring plate; 6. a discharge port; 7. a motor; 8. pressing the panel; 9. a first cylinder; 10. a card slot; 11. a drive mechanism; 12. an electronic control box; 13. a second cylinder; 14. a support frame; 15. a limiting barrel; 16. an electric sheet; 17. a push rod; 18. a connecting disc; 19. fixing the disc; 20. a fixing plate; 21. a connecting shaft; 22. and (6) rotating the plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

Example one

Referring to fig. 1-4, a dough kneading mechanism with adjustable direction for noodle processing comprises a dough kneading barrel body 1, a feeding port 2 is arranged on the side end face of the dough kneading barrel body 1, a discharging port 6 is arranged on the lower end face of the dough kneading barrel body 1, a rotating shaft 3 is arranged at the position of the inner axis of the dough kneading barrel body 1, a motor 7 for driving the rotating shaft 3 to rotate is arranged at the bottom of the dough kneading barrel body 1, a first stirring plate 4 and a second stirring plate 5 are rotatably arranged on two sides of the outer wall of the rotating shaft 3, the first stirring plate 4 and the second stirring plate 5 form an X-shaped structure, a driving mechanism 11 for limiting the first stirring plate 4 and the second stirring plate 5 to rotate is arranged at the top of the dough kneading barrel body 1, and the axis of the first stirring plate 4 and the second stirring plate 5 in circumferential rotation is vertical to the axis of the rotating shaft 3; the driving mechanism 11 comprises a supporting frame 14 arranged at the top of the dough kneading barrel body 1, a limiting barrel 15 arranged at the top of the dough kneading barrel body 1, an electric control box 12 arranged on the supporting frame 14 and a second air cylinder 13 arranged on the supporting frame 14, wherein a fixing disc 19 is arranged at the extending end of the second air cylinder 13, three groups of electric sheets 16 are sequentially embedded in the limiting barrel 15 from top to bottom, the three groups of electric sheets 16 are respectively and electrically connected with three groups of electric control switches in the electric control box 12, the three groups of electric control switches are all electrically connected with the second air cylinder 13, and a single chip microcomputer is arranged in the electric control box 12 and used for programming the opening and closing of the three groups of electric control switches; the interior of the rotating shaft 3 is of a hollow structure, a fixed plate 20 is fixedly connected to the center of the interior of the rotating shaft 3, the driving mechanism 11 further comprises connecting shafts 21 rotatably mounted on two sides of the fixed plate 20 respectively, rotating plates 22 fixedly mounted on the connecting shafts 21 and push rods 17 parallel to the axial lead of the rotating shaft 3 and mounted at one ends of the rotating plates 22, connecting discs 18 are rotatably mounted on the bottom extending ends of the second air cylinders 13, the top ends of the two groups of push rods 17 are fixedly connected with the connecting discs 18, and the extending ends of the two groups of connecting shafts 21 penetrate through the rotating shaft 3 respectively and are fixedly mounted with the corresponding first stirring plate 4 and the corresponding second stirring plate 5; the axis of the connecting shaft 21 coincides with the center line of the rotating plate 22, and the two groups of push rods 17 are respectively positioned at two sides of the axis of the connecting shaft 21;

in this embodiment, the electric control mode among the electric control box 12, the electric pieces 16 and the second cylinder 13 is that, firstly, the electric piece 16 located at the top is electrified, the second cylinder 13 stops for a period of time after contacting with the electric piece 16 at the top, the second cylinder 13 continues to move downwards, the electric piece 16 located at the bottom is electrified at this time, the second cylinder 13 stops for a period of time after contacting with the electric piece 16 at the bottom, then the second cylinder 13 continues to move upwards, the electric piece 16 at the top is electrified, and the cycle is repeated, and the control mode of the electric piece 16 and the second cylinder 13 is completed by the programming of a single chip microcomputer; thereby realized the reciprocal promotion about the second cylinder 13, the in-process that the second cylinder 13 promoted from top to bottom, promote the commentaries on classics board 22 that corresponds and rotate, thereby make the connecting axle 21 that corresponds rotate, and then realize that the first stirring board 4 and the 5 arc of second stirring board that correspond rotate, and change the in-process, motor 7 is in operating condition all the time, thereby realize that first stirring board 4 and second stirring board 5 rotate the stirring in-process at the circumference, realize the continuous change of angle, thereby realize the multi-direction dough stirring processing to the dough, the condition that inertia stirring appears in the dough has been reduced and has been taken place, thereby the dough efficiency of dough has been improved.

Example two

The embodiment is further optimized on the basis of the first embodiment;

referring to fig. 1-4, a first cylinder 9 is installed at the top of the kneading barrel body 1, a pressing panel 8 is vertically and slidably connected to the inner wall of the kneading barrel body 1, an extending end of the bottom end of the first cylinder 9 is fixedly connected with the pressing panel 8, and a through hole for penetrating through the rotating shaft 3 is formed in the center of the pressing panel 8; the lower end face of the dough pressing plate 8 is provided with a clamping groove 10 for the first stirring plate 4 and the second stirring plate 5 to be inserted when in a horizontal state, the clamping groove 10 does not penetrate through the upper end face of the dough pressing plate 8, and the depth of the clamping groove 10 is larger than the distance from the connecting shaft 21 to the bottom surface wall of the inner side of the dough kneading barrel body 1;

in this embodiment, an independent circuit is formed among the middle electric sheet 16, the electric control box 12 and the second cylinder 13, when the dough kneading is finished and the material is ready to be discharged, the discharging button on the electric control box 12 is pressed, the upper electric sheet 16 and the lower electric sheet 16 are both in an open circuit state, at this time, in the process of the up-and-down movement of the second cylinder 13, after the connecting sheet at the extending end of the fixed disk 19 is contacted with the middle electric sheet 16, the second cylinder 13 stops moving, at this time, the first stirring plate 4 and the second stirring plate 5 are in a horizontal state, meanwhile, the first cylinder 9 pushes the pressing plate 8 downwards, so that the first stirring plate 4 and the second stirring plate 5 are inserted into the clamping groove 10 on the lower end face of the pressing plate 8, and the pressing plate 8 discharges the dough from the discharging port 6 at the bottom of the dough kneading barrel body 1, thereby realizing the dough kneading mechanism convenient for discharging.

The foregoing shows and describes the general principles, essential features, and advantages of the utility model. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the utility model, but that various changes and modifications may be made without departing from the spirit and scope of the utility model, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a dough kneading mechanism with adjustable noodle processing is with direction, includes dough kneading barrel body (1), its characterized in that, the side end face of dough kneading barrel body (1) is equipped with pan feeding mouth (2), the lower terminal surface of dough kneading barrel body (1) is equipped with discharge gate (6), the inside axis position department of dough kneading barrel body (1) installs axis of rotation (3), the bottom of dough kneading barrel body (1) is installed and is used for driving axis of rotation (3) pivoted motor (7), the outer wall both sides of axis of rotation (3) are rotated and are installed first stirring board (4) and second stirring board (5), first stirring board (4) and second stirring board (5) form X shape structure, the top of dough kneading barrel body (1) is installed and is used for injecing first stirring board (4) and second stirring board (5) and takes place pivoted actuating mechanism (11), and the axial lead of first stirring board (4) and second stirring board (5) circumference pivoted and the axial lead of axis of rotation (3) are installed, and first stirring board (4) and second stirring board (5) circumference And is vertical.

2. The dough kneading mechanism with adjustable direction for noodle processing according to claim 1, wherein the driving mechanism (11) comprises a support frame (14) installed on the top of the dough kneading barrel body (1), a limiting barrel (15) installed on the top of the dough kneading barrel body (1), an electric control box (12) installed on the support frame (14) and a second air cylinder (13) installed on the support frame (14), a fixed disk (19) is installed at the extending end of the second air cylinder (13), three groups of electric pieces (16) are sequentially embedded in the inner side of the limiting barrel (15) from top to bottom, and the three groups of electric pieces (16) are respectively electrically connected with three groups of electric control switches in the electric control box (12), and the three groups of electric control switches are electrically connected with the second air cylinder (13), and a single chip microcomputer is installed in the electric control box (12) for programming the opening and closing of the three groups of electric control switches.

3. The direction adjustable kneading mechanism for noodle processing according to claim 2, wherein, the interior of the rotating shaft (3) is of a hollow structure, a fixing plate (20) is fixedly connected at the center position of the interior of the rotating shaft (3), the driving mechanism (11) also comprises a connecting shaft (21) which is respectively and rotatably arranged at two sides of the fixed plate (20), a rotating plate (22) which is fixedly arranged on the connecting shaft (21) and a push rod (17) which is parallel to the axial lead of the rotating shaft (3) and is arranged at one end of the rotating plate (22), a connecting disc (18) is rotatably arranged at the extended end of the bottom end of the second cylinder (13), the top ends of the two groups of push rods (17) are fixedly connected with the connecting disc (18), the extending ends of the two groups of connecting shafts (21) respectively penetrate through the rotating shaft (3), and is fixedly arranged with the corresponding first stirring plate (4) and the second stirring plate (5).

4. The dough kneading mechanism with adjustable direction for noodle processing according to claim 3, wherein the axis of the connecting shaft (21) coincides with the center line of the rotating plate (22), and the two sets of push rods (17) are located on both sides of the axis of the connecting shaft (21).

5. The dough kneading mechanism with adjustable direction for noodle processing according to claim 1, wherein a first cylinder (9) is installed on the top of the dough kneading barrel (1), a pressing plate (8) is vertically and slidably connected to the inner wall of the dough kneading barrel (1), the bottom end of the first cylinder (9) is fixedly connected to the pressing plate (8), and a through hole for the rotation shaft (3) to pass through is formed at the center of the pressing plate (8).

6. Kneading mechanism with adjustable direction for noodle processing according to claim 1, characterized in that the lower end face of the pressing plate (8) is provided with a slot (10) for insertion of the first stirring plate (4) and the second stirring plate (5) when they are in a horizontal state, the slot (10) does not penetrate the upper end face of the pressing plate (8), the depth of the slot (10) is greater than the distance from the connecting shaft (21) to the bottom surface wall of the inner side of the kneading barrel (1).

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