CN211069927U - A double helix rabbling mechanism for food production - Google Patents

Abstract

The utility model discloses a double helix rabbling mechanism for food production, which comprises a housin, right spiral (mixing) shaft, left spiral (mixing) shaft, the feeder hopper has all been welded to the left and right sides face of casing upper end, the inside upper end of casing has been seted up between milling, the feed inlet has all been seted up to the left and right sides face between milling, the stirring has been seted up to the inside bottom of casing between, a side of bottom has been seted up between the stirring and has been got the material mouth, one side meshing of second driving gear has the second driven gear, the last surface welding of second driven gear has the screw pivot, first driven gear's inboard meshing has first driving gear, the central authorities welding of first driving gear has the motor shaft, the bottom of motor shaft runs through into the inside between. Through the vice grinding roller and the main grinding roller of grinding in grinding the room, can grind the refining to the food raw materials who will get into the stirring room stirring, through the screw, can prevent that food raw materials from deposiing in the bottom of stirring room, influencing stirring effect.

Description

A double helix rabbling mechanism for food production

Technical Field

The utility model relates to a food production processing technology field especially relates to a double helix rabbling mechanism for food production.

Background

The food industry is the prop industry of national economy of China, the food machinery is the industry for providing equipment for the food industry, the food machinery industry of China is established in new China beginning in the 50 th of 20 th century, mainly after the 80 th of 20 th century is reformed and opened, the food machinery industry depends on own power, from endless to perfect, from small to large, from weak to strong, from low to high, and from white hands are developed, strengthened and perfected gradually, the bright development course of nearly 60 years has been passed so far, the food machinery manufacturing industry of China is in an ascending trend in recent years, the food safety is increasingly severe, the equipment updating becomes a big trend, and because of this, the food machinery manufacturing industry of China can keep growing in a quite long time in the future, and the degree of automation is higher and higher, and a plurality of food processing products are provided, wherein the stirring device is one of the food machinery manufacturing industry of China.

At present most food agitating unit's stirring structure is comparatively simple, and the stirring effect is relatively poor, and stirs inefficiency, for this reason we have proposed a double helix rabbling mechanism for food production to solve the above-mentioned technical problem who proposes.

SUMMERY OF THE UTILITY MODEL

The utility model provides a preceding majority food mixing device's that is used for food production double helix rabbling mechanism to provide in order to solve above-mentioned background art stirring structure is comparatively simple, and stirring effect is relatively poor, and stirs the problem of inefficiency.

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

a double-helix stirring mechanism for food production comprises a shell, a right-helix stirring shaft and a left-helix stirring shaft, wherein an observation window is arranged on the front surface of the shell, a control switch is inlaid on the right side surface of the shell, feed hoppers are welded on the left side surface and the right side surface of the upper end of the shell, a gear cover is welded on the top of the shell, a milling chamber is arranged at the upper end inside the shell, feed inlets are arranged on the left side surface and the right side surface of the milling chamber, a connecting port is arranged on the bottom surface of the milling chamber, a stirring chamber is arranged at the bottom end inside the shell, a material taking port is arranged on one side surface of the bottom end of the stirring chamber, the right-helix stirring shaft is rotatably connected to the right end of the stirring chamber, the bottom end of the right-helix stirring shaft penetrates into the bottom of the shell and is welded with a second driving, the top of screw pivot is run through into the inside between the stirring and is welded the screw, left spiral (mixing) shaft rotates the left end of connection between the stirring, the upper end of left spiral (mixing) shaft, right spiral (mixing) shaft all runs through into the inside between milling and the welding has vice grinding roller, the top of left spiral (mixing) shaft, right spiral (mixing) shaft all runs through the inside and the welding of entering the gear cover and has first driven gear, first driven gear's inboard meshing has first driving gear, the central authorities welding of first driving gear has the motor shaft, the top of motor shaft is run through out gear cover and fixedly connected with motor, the bottom of motor shaft is run through into the inside between milling and the welding has main grinding roller.

Further, the control switch is matched with the motor for use.

Further, the feed inlet is communicated with the feed hopper, and the connecting port is communicated with the stirring room.

Further, the first driving gear is located between the two first driven gears.

Further, the main grinding roller is positioned between the two auxiliary grinding rollers, and the main grinding roller is matched with the two auxiliary grinding rollers for use.

Further, the bottom surface of the grinding chamber is an inwards concave inclined surface, the connecting port is located at the lowest part of the inwards concave surface, and the connecting port is located right below the main grinding roller.

Further, the propeller is positioned at the bottommost part of the stirring room.

Further, helical blades are welded on the outer surfaces of the left helical stirring shaft and the right helical stirring shaft, and the helical blades of the left helical stirring shaft and the helical blades of the right helical stirring shaft are opposite in rotation direction.

Compared with the prior art, the utility model discloses the beneficial effect who realizes:

by the matching arrangement of the auxiliary grinding roller and the main grinding roller in the grinding chamber, the food raw materials to be stirred in the stirring chamber can be ground and refined, and the stirring effect and quality of the food are improved;

the food stirring efficiency and the food stirring quality can be well improved through the two spiral stirring shafts with opposite rotation directions;

through the screw, can be at the stirring in-process of food, the screw can rotate in the bottom between the stirring, so the screw that changes produces a thrust that makes progress, promotes the food raw materials up motion of bottom between the stirring to this can prevent that food raw materials from settling in the bottom between the stirring, influences the stirring effect.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic diagram of the internal structure of the present invention.

In FIGS. 1-2: 1-shell, 101-grinding room, 102-feeding port, 103-connecting port, 104-stirring room, 105-material taking port, 2-observation window, 3-control switch, 4-feeding hopper, 5-gear cover, 6-motor, 7-right spiral stirring shaft, 8-left spiral stirring shaft, 9-auxiliary grinding roller, 10-first driven gear, 11-first driving gear, 12-motor rotating shaft, 13-main grinding roller, 14-second driving gear, 15-second driven gear, 16-propeller rotating shaft and 17-propeller.

Detailed Description

The following description is provided for illustrative purposes, and other advantages and features of the present invention will become apparent to those skilled in the art from the following detailed description.

It should be understood that the structure, ratio, size and the like shown in the drawings attached to the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by those skilled in the art, and are not used for limiting the limit conditions that the present invention can be implemented, so that the present invention has no technical essential meaning, and any structure modification, ratio relationship change or size adjustment should still fall within the scope that the technical content disclosed in the present invention can cover without affecting the function that the present invention can produce and the purpose that the present invention can achieve. Meanwhile, the terms such as "upper", "lower", "left", "right", "middle" and "one" used in the present specification are for convenience of description, and are not intended to limit the scope of the present invention, and changes or adjustments of the relative relationship thereof may be made without substantial technical changes, and the present invention is also regarded as the scope of the present invention.

Please refer to fig. 1 to 2:

the utility model provides a double helix rabbling mechanism for food production, including casing 1, right spiral (mixing) shaft 7, left spiral (mixing) shaft 8, following each part to a double helix rabbling mechanism for food production carries out detailed description:

the front surface of the shell 1 is provided with an observation window 2, the right side surface of the shell 1 is inlaid with a control switch 3, the left side surface and the right side surface of the upper end of the shell 1 are respectively welded with a feed hopper 4, the top of the shell 1 is welded with a gear cover 5, the upper end inside the shell 1 is provided with a grinding chamber 101, the left side surface and the right side surface of the grinding chamber 101 are respectively provided with a feed inlet 102, the bottom surface of the grinding chamber 101 is provided with a connecting port 103, the bottom end inside the shell 1 is provided with a stirring chamber 104, and one side;

specifically, the stirring condition of food raw materials in the device can be conveniently observed through the observation window 2, the motor 6 can be controlled to be switched on and off through the control switch 3, the food raw materials can be conveniently added into the grinding chamber 101 through the feed hopper 4 and the feed inlet 102, the food raw materials in the grinding chamber 101 can be ground and refined, then the ground and refined food raw materials enter the stirring chamber 104 through the connecting port 103 for stirring, and the stirred food raw materials are taken out through the material taking port 105;

according to the above, the right spiral stirring shaft 7 is rotatably connected to the right end of the stirring room 104, the bottom end of the right spiral stirring shaft 7 penetrates into the bottom of the shell 1 and is welded with the second driving gear 14, one side of the second driving gear 14 is engaged with the second driven gear 15, the upper surface of the second driven gear 15 is welded with the propeller rotating shaft 16, and the top of the propeller rotating shaft 16 penetrates into the stirring room 104 and is welded with the propeller 17;

specifically, the right spiral stirring shaft 7 can rotate inside the stirring chamber 104 to stir the food raw materials, and in the rotating process of the right spiral stirring shaft 7, the second driving gear 14 is synchronously driven to rotate, then the second driving gear 14 drives the propeller rotating shaft 16 to rotate through the meshing of the second driven gear 15, so that the propeller rotating shaft 16 drives the propeller 17 to rotate at the bottom of the stirring chamber 104, and the rotating propeller 17 can generate an upward thrust to push the food raw materials at the bottom of the stirring chamber 104 to move upwards, so that the food raw materials can be prevented from being accumulated at the bottom of the stirring chamber 104 to influence the stirring effect;

according to the above, the left spiral stirring shaft 8 is rotatably connected to the left end of the stirring room 104, the upper ends of the left spiral stirring shaft 8 and the right spiral stirring shaft 7 penetrate through the inside of the grinding room 101 and are welded with the auxiliary grinding roller 9, the tops of the left spiral stirring shaft 8 and the right spiral stirring shaft 7 penetrate through the inside of the gear cover 5 and are welded with the first driven gear 10, the inner side of the first driven gear 10 is engaged with the first driving gear 11, the center of the first driving gear 11 is welded with the motor rotating shaft 12, the top of the motor rotating shaft 12 penetrates through the gear cover 5 and is fixedly connected with the motor 6, and the bottom of the motor rotating shaft 12 penetrates through the inside of the grinding room 101 and is welded with the main grinding roller 13;

specifically, after starting motor 6 through control switch 3, motor 6 can drive first driving gear 11 through motor shaft 12, main roller 13 that mills rotates, first driving gear 11 drives right spiral (mixing) shaft 7 through the meshing with first driven gear 10 after that, left spiral (mixing) shaft 8 rotates, then pivoted right spiral (mixing) shaft 7, left spiral (mixing) shaft 8 can stir the food raw materials in the stirring room 104, right spiral (mixing) shaft 7 simultaneously, the vice roller 9 of milling of left spiral (mixing) shaft 8 upper end also can follow synchronous rotation, with this cooperation through vice roller 9 and the main roller 13 of milling, can mill the food raw materials that will get into in the stirring room 104 promptly and refine, be convenient for the subsequent stirring of food raw materials, improve food raw materials stirring effect.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not to be construed as limiting the invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (8)

1. The utility model provides a double helix rabbling mechanism for food production, includes casing (1), right spiral (mixing) shaft (7), left spiral (mixing) shaft (8), its characterized in that:

the front surface of the shell (1) is provided with an observation window (2), the right side surface of the shell (1) is inlaid with a control switch (3), feed hoppers (4) are welded on the left side surface and the right side surface of the upper end of the shell (1), a gear cover (5) is welded on the top of the shell (1), a grinding chamber (101) is arranged at the upper end of the interior of the shell (1), feed inlets (102) are arranged on the left side surface and the right side surface of the grinding chamber (101), a connecting port (103) is arranged on the bottom surface of the grinding chamber (101), a stirring chamber (104) is arranged at the bottom end of the interior of the shell (1), and a material taking port (105) is arranged on one side surface;

the right spiral stirring shaft (7) is rotatably connected to the right end of the stirring room (104), the bottom end of the right spiral stirring shaft (7) penetrates into the bottom of the shell (1) and is welded with a second driving gear (14), one side of the second driving gear (14) is meshed with a second driven gear (15), the upper surface of the second driven gear (15) is welded with a propeller rotating shaft (16), and the top of the propeller rotating shaft (16) penetrates into the stirring room (104) and is welded with a propeller (17);

the utility model discloses a grinding machine, including left spiral (mixing) shaft (8), right spiral (mixing) shaft (7), left spiral (mixing) shaft (8), right spiral (mixing) shaft (7) are connected in the left end of stirring within a definite time (104), the upper end of left spiral (mixing) shaft (8), right spiral (mixing) shaft (7) all runs through the inside and the welding of milling within a definite time (101) has vice grinding roller (9), the top of left spiral (mixing) shaft (8), right spiral (mixing) shaft (7) all runs through the inside and the welding of going into gear cover (5) and has first driven gear (10), the inboard meshing of first driven gear (10) has first driving gear (11), the central authorities welding of first driving gear (11) has motor shaft (12), the top of motor shaft (12) runs through out gear cover (5) and fixedly connected with motor (6), the bottom of motor shaft (12) runs.

2. The double helix stirring mechanism for food production of claim 1, wherein: the control switch (3) is matched with the motor (6) for use.

3. The double helix stirring mechanism for food production of claim 1, wherein: the feed inlet (102) is communicated with the feed hopper (4), and the connecting port (103) is communicated with the stirring room (104).

4. The double helix stirring mechanism for food production of claim 1, wherein: the first driving gear (11) is positioned between the two first driven gears (10).

5. The double helix stirring mechanism for food production of claim 1, wherein: the main grinding roll (13) is positioned between the two auxiliary grinding rolls (9), and the main grinding roll (13) is matched with the two auxiliary grinding rolls (9) for use.

6. The double helix stirring mechanism for food production of claim 1, wherein: the bottom surface of the grinding chamber (101) is a concave inclined surface, the connecting port (103) is positioned at the lowest part of the concave surface, and the connecting port (103) is positioned right below the main grinding roll (13).

7. The double helix stirring mechanism for food production of claim 1, wherein: the propeller (17) is positioned at the bottommost part of the stirring room (104).

8. The double helix stirring mechanism for food production of claim 1, wherein: helical blades are welded on the outer surfaces of the left helical stirring shaft (8) and the right helical stirring shaft (7), and the helical blades of the left helical stirring shaft (8) and the helical blades of the right helical stirring shaft (7) are opposite in rotating direction.

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