CN215855982U - Automatic change and hold between fingers bent equipment - Google Patents

Abstract

The utility model relates to automatic yeast kneading equipment, which belongs to the technical field of yeast making equipment and comprises a rack, wherein a yeast kneading charging barrel and a forming charging barrel are horizontally arranged on the rack, and the yeast kneading charging barrel is communicated with the forming charging barrel; a first kneading mechanism is arranged in the kneading material cylinder, and a second kneading mechanism is arranged in the forming material cylinder; a feed hopper is arranged at the upper side of the kneading charging barrel and at the end far away from the forming charging barrel, and a discharge hole is arranged at the lower side of the forming charging barrel and at the end far away from the kneading charging barrel; and a first power mechanism for driving the first pinching mechanism to work and a second power mechanism for driving the second pinching mechanism to work are arranged on the rack. Through adopting above-mentioned technical scheme, can avoid traditional artifical the unstable factor of kneading dough quality, through the mode of simulating artifical kneading dough, realize that curved piece shape, weight, elasticity are highly unanimous.

Description

Automatic change and hold between fingers bent equipment

Technical Field

The utility model belongs to the technical field of starter propagation equipment, and particularly relates to automatic starter kneading equipment.

Background

In the process of brewing and producing the starter for the Xiaoqu white spirit, the traditional process is adopted for preparing the starter, and in the traditional process, manual starter kneading is adopted. The manual kneading has instability of human factors, such as the shape and weight of the dough and the tightness of the dough are controlled by personal experience, the quality is difficult to be as same as one, the kneading modes of different people are different from one person to another, and the integral kneading quality is also indirectly influenced.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems in the prior art, the utility model aims to provide automatic kneading equipment which can avoid unstable factors of the traditional manual kneading quality and realize the consistency of the shape, weight and tightness of a yeast block in a mode of simulating manual kneading.

In order to achieve the above object of the present invention, the present invention provides a technical solution as follows:

an automatic yeast kneading device comprises a rack, wherein a yeast kneading charging barrel and a forming charging barrel are horizontally arranged on the rack and are communicated; a first kneading mechanism is arranged in the kneading material cylinder, and a second kneading mechanism is arranged in the forming material cylinder; a feed hopper is arranged at the upper side of the kneading charging barrel and at the end far away from the forming charging barrel, and a discharge hole is arranged at the lower side of the forming charging barrel and at the end far away from the kneading charging barrel; and a first power mechanism for driving the first pinching mechanism to work and a second power mechanism for driving the second pinching mechanism to work are arranged on the rack.

Preferably, the first kneading mechanism includes a first rotating shaft rotatably provided in the kneading cylinder, and a first helical blade provided outside the first rotating shaft.

Preferably, the first power mechanism comprises a first speed regulating motor, a first driving sprocket arranged on an output shaft of the first speed regulating motor, and a first driven sprocket arranged at the end part of the first rotating shaft, and a first chain is arranged on the first driving sprocket and the first driven sprocket.

Preferably, a supporting plate is arranged between the kneading material barrel and the forming material barrel, the supporting plate is respectively connected with the first kneading mechanism and the second kneading mechanism, and a communication port is formed in a region, which is positioned between the position of connecting the first kneading mechanism and the position of connecting the second kneading mechanism, on the supporting plate.

Preferably, the second pinching mechanism comprises a second rotating shaft and a third rotating shaft which are rotatably connected in the forming charging barrel, the second rotating shaft and the third rotating shaft are arranged in parallel and parallel to the first rotating shaft, a second spiral blade is arranged on the second rotating shaft, and a third spiral blade is arranged on the third rotating shaft.

Preferably, the second power mechanism comprises a first gear arranged on the second rotating shaft and a second gear arranged on the third rotating shaft, the first gear and the second gear are positioned at one end of the forming charging barrel, which is far away from the kneading charging barrel, and the first gear and the second gear are meshed with each other; a second driven chain wheel is arranged on the second rotating shaft or the third rotating shaft; the rack is provided with a second speed regulating motor, an output shaft of the second speed regulating motor is provided with a second driving chain wheel, and a second chain is arranged between the second driving chain wheel and a second driven chain wheel.

According to the automatic yeast kneading equipment provided by the utility model, through the first yeast kneading mechanism arranged in the yeast kneading charging barrel and the second yeast kneading mechanism arranged in the molding charging barrel, when yeast dough is processed, primary yeast kneading can be carried out in the yeast kneading charging barrel, secondary yeast kneading can be carried out in the molding charging barrel, uniform yeast kneading of the yeast dough is realized, the shape and the weight of the molded yeast dough can meet the technological standard, meanwhile, the manual yeast kneading mode is avoided, and the working strength of operators is greatly reduced.

Drawings

FIG. 1 is a schematic structural diagram of an automated kneading apparatus according to the present invention;

FIG. 2 is a schematic view of a protruding kneading barrel of an automated kneading apparatus according to the present invention;

fig. 3 is a schematic structural diagram of a protruding forming cylinder in an automatic kneading device according to the present invention.

Reference numbers in the figures:

100. a frame; 200. a kneading barrel; 210. a support plate; 300. forming a charging barrel; 400. a first kneading mechanism; 410. a first rotating shaft; 420. a first helical blade; 500. a second kneading mechanism; 510. a second rotating shaft; 520. a third rotating shaft; 530. a second helical blade; 540. a third helical blade; 600. a feed hopper; 700. a discharge port; 800. a first power mechanism; 810. a first speed regulating motor; 820. a first drive sprocket; 830. a first driven sprocket; 840. a first chain; 900. a second power mechanism; 910. a first gear; 920. a second gear; 930. a second driven sprocket; 940. a second speed regulating motor; 950. a second drive sprocket; 960. and a second chain.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be further described with reference to the accompanying drawings and specific 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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Examples

The utility model provides an automatic yeast kneading device, which comprises a rack 100 and a yeast kneading charging barrel 200 and a forming charging barrel 300 which are horizontally arranged on the rack 100, wherein the yeast kneading charging barrel 200 is communicated with the forming charging barrel 300, and the yeast kneading charging barrel 200 is shown in the figures 1-3. The first kneading mechanism 400 is provided in the kneading cylinder 200, and the second kneading mechanism 500 is provided in the molding cylinder 300. A feeding hopper 600 is provided at an upper side of the kneading cylinder 200 at an end far from the molding cylinder 300, and a discharging port 700 is provided at a lower side of the molding cylinder 300 at an end far from the kneading cylinder 200. A first power mechanism 800 for driving the first kneading mechanism 400 to work and a second power mechanism 900 for driving the second kneading mechanism 500 to work are disposed on the frame 100. During the koji making, add quantitative koji group by feeder hopper 600, through the preliminary koji of pinching of first koji pinching mechanism 400, convey to the second koji pinching mechanism 500 and carry out the secondary koji pinching, finally discharge by discharge gate 700, satisfy corresponding technological standard after the koji group shaping.

The first kneading mechanism 400 includes a first rotating shaft 410 rotatably disposed in the kneading barrel 200, and a first helical blade 420 disposed outside the first rotating shaft 410.

The first power mechanism 800 includes a first adjustable speed motor 810, a first driving sprocket 820 disposed on an output shaft of the first adjustable speed motor 810, and a first driven sprocket 830 disposed at an end of the first rotating shaft 410, wherein a first chain 840 is disposed on the first driving sprocket 820 and the first driven sprocket 830.

During operation, the first speed regulating motor 810 drives the first driving sprocket 820 to rotate, the first driving sprocket 820 drives the first driving sprocket 820 to rotate, and then the first rotating shaft 410 is driven to rotate, the first helical blade 420 on the first rotating shaft 410 is driven to rotate in the rotating process of the first rotating shaft, the koji added into the koji kneading cylinder 200 is pushed forward in the rotating process of the first helical blade 420, and the koji is continuously extruded in the pushing process, so that the purpose of kneading the koji is achieved.

A supporting plate 210 is arranged between the kneading cylinder 200 and the forming cylinder 300, the supporting plate 210 is respectively connected with the first kneading mechanism 400 and the second kneading mechanism 500, and a communication port is arranged on the supporting plate 210 and is positioned in a region between the position of connecting the first kneading mechanism 400 and the position of connecting the second kneading mechanism 500. Through the intercommunication mouth that sets up, the dough in kneading the feed cylinder 200 is being held between the fingers and is removing the in-process continuously, is transported to intercommunication mouth department, until entering into the shaping feed cylinder 300 through the intercommunication mouth in, carries out the secondary and kneads between the fingers in shaping feed cylinder 300.

The second kneading mechanism 500 includes a second rotating shaft 510 and a third rotating shaft 520 rotatably connected to the inside of the molding barrel 300, and the second rotating shaft 510 and the third rotating shaft 520 are disposed in parallel and parallel to the first rotating shaft 410. The second rotating shaft 510 is provided with a second helical blade 530, and the third rotating shaft 520 is provided with a third helical blade 540. The dough can be further kneaded by the provision of the second helical blade 530 and the third helical blade 540. And a more uniform kneading process is realized, and the yeast blocks meeting the process standard are finally formed.

The second power mechanism 900 includes a first gear 910 disposed on the second shaft 510 and a second gear 920 disposed on the third shaft 520, the first gear 910 and the second gear 920 are disposed at an end of the forming barrel 300 away from the kneading barrel 200, and the first gear 910 and the second gear 920 are engaged with each other. A second driven sprocket 930 is arranged on the second rotating shaft 510 or the third rotating shaft 520; a second adjustable speed motor 940 is arranged on the frame 100, a second driving sprocket 950 is arranged on an output shaft of the second adjustable speed motor 940, and a second chain 960 is arranged between the second driving sprocket 950 and the second driven sprocket 930. When the second adjustable speed motor 940 controls the second driving sprocket 950 to rotate, the second driving sprocket 950 drives the second driven sprocket 930 to rotate through the second chain 960, and due to the meshing effect of the first gear 910 and the second gear 920, when the second driven sprocket 930 drives the second rotating shaft 510 or the third rotating shaft 520 to rotate, the second rotating shaft 510 and the third rotating shaft 520 rotate synchronously, so that the kneading effect is achieved.

When the automatic kneading device is used, a dough to be processed is placed into the kneading cylinder 200 from the feed hopper 600, the dough is kneaded for the first time by the first kneading mechanism 400, and is moved into the forming cylinder 300 under the action of the first kneading mechanism 400, and is kneaded for the second time by the second kneading mechanism 500 in the first kneading mechanism 400. And discharging the secondary kneaded material from a discharging port 700 to form a koji block meeting the process standard.

According to the utility model, through the first kneading mechanism 400 arranged in the kneading cylinder 200 and the second kneading mechanism 500 arranged in the forming cylinder 300, when a dough is processed, primary kneading can be carried out in the kneading cylinder 200, secondary kneading can be carried out in the forming cylinder 300, uniform kneading of the dough is realized, the shape and weight of the formed dough can meet the process standard, meanwhile, the manual kneading mode is avoided, and the working strength of operators is greatly reduced.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", "front", "rear", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly and may include, for example, a fixed connection, a detachable connection, an integral connection, a mechanical connection, an electrical connection, a direct connection, an indirect connection via an intermediate medium, and a communication between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art. The embodiments and features of the embodiments of the present invention may be combined with each other without conflict.

The above-mentioned embodiments only express the embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (6)

1. The automatic yeast kneading equipment is characterized by comprising a rack (100), wherein a yeast kneading charging barrel (200) and a forming charging barrel (300) are horizontally arranged on the rack (100), and the yeast kneading charging barrel (200) is communicated with the forming charging barrel (300);

a first kneading mechanism (400) is arranged in the kneading charging barrel (200), and a second kneading mechanism (500) is arranged in the forming charging barrel (300);

a feed hopper (600) is arranged at one end, far away from the forming charging barrel (300), of the upper side of the kneading charging barrel (200), and a discharge hole (700) is arranged at one end, far away from the kneading charging barrel (200), of the lower side of the forming charging barrel (300);

a first power mechanism (800) for driving the first kneading mechanism (400) to work and a second power mechanism (900) for driving the second kneading mechanism (500) to work are arranged on the rack (100).

2. The automated kneading apparatus according to claim 1, wherein said first kneading mechanism (400) comprises a first rotating shaft (410) rotatably disposed in said kneading barrel (200), and a first helical blade (420) disposed outside said first rotating shaft (410).

3. The automatic kneading device according to claim 2, wherein the first power mechanism (800) comprises a first speed motor (810), a first driving sprocket (820) disposed on the output shaft of the first speed motor (810), and a first driven sprocket (830) disposed at the end of the first shaft (410), and a first chain (840) is disposed on the first driving sprocket (820) and the first driven sprocket (830).

4. The automatic kneading device according to claim 1, wherein a support plate (210) is provided between the kneading cylinder (200) and the molding cylinder (300), the support plate (210) is connected to the first kneading mechanism (400) and the second kneading mechanism (500), respectively, and a communication port is opened in a region between a position where the first kneading mechanism (400) is connected and a position where the second kneading mechanism (500) is connected to the support plate (210).

5. The automated kneading apparatus according to claim 2, wherein the second kneading mechanism (500) comprises a second rotating shaft (510) and a third rotating shaft (520) rotatably connected to the inside of the molding barrel (300), and the second rotating shaft (510) and the third rotating shaft (520) are arranged in parallel and are parallel to the first rotating shaft (410);

a second helical blade (530) is arranged on the second rotating shaft (510), and a third helical blade (540) is arranged on the third rotating shaft (520).

6. The automatic kneading device according to claim 5, wherein the second power mechanism (900) comprises a first gear (910) disposed on the second rotating shaft (510) and a second gear (920) disposed on the third rotating shaft (520), the first gear (910) and the second gear (920) are disposed at one end of the forming barrel (300) far away from the kneading barrel (200), and the first gear (910) and the second gear (920) are engaged with each other;

a second driven chain wheel (930) is arranged on the second rotating shaft (510) or the third rotating shaft (520);

the frame (100) is provided with a second speed regulating motor (940), an output shaft of the second speed regulating motor (940) is provided with a second driving chain wheel (950), and a second chain (960) is arranged between the second driving chain wheel (950) and a second driven chain wheel (930).

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