CN213719874U - Food rolling-cutting rounding mechanism - Google Patents

Abstract

The utility model discloses a food rolling-cutting rounding mechanism, which comprises a driving motor, a camshaft, a left cam, a right cam, a left hollow shaft, a right hollow shaft, a left roller shaft, a right roller shaft, a left cutting roller and a right cutting roller; the driving motor drives the cam shaft to rotate, the cam shaft is provided with a left cam and a right cam, and the protruding directions of the left cam and the right cam are opposite; the driving motor also drives left and right hollow shafts which are arranged in parallel to rotate relatively, and the left and right hollow shafts are vertical to the cam shaft and respectively correspond to the left and right cams; the left and right cutting rollers are fixedly arranged on the left and right roll shafts; the two ends of the left and right roll shafts are erected on the frame, one ends of the left and right roll shafts respectively penetrate through the left and right hollow shafts and are always propped against the corresponding left and right cams under the action of the return springs, and the roll shafts and the hollow shafts are connected together in a radial limiting and axial slidable mode. The structure effectively improves the productivity and efficiency and reduces the production cost.

Description

Food rolling-cutting rounding mechanism

Technical Field

The utility model relates to a round mechanism is rubbed with hands in food hobbing for make circular food such as taro circle, glue pudding, cat litter, pet food and well pellet, be fit for food factory, pet food manufacturing enterprise, uses such as milk tea shop and dessert shop.

Background

In the prior art, a rounding pill making machine comprises a raw material extrusion strip forming mechanism, a rolling cutting rounding mechanism and a finished product conveying mechanism; after the raw materials are extruded into strips, the finished product of the pill is obtained by rolling cutting and rounding, and finally the finished product is sent out. The finished product of the pill is round-rolled by two single-side shaft rolling rollers with the length of about 120 mm. Because high-speed rotation rolling cutting and round-trip twisting actions are required to be carried out simultaneously, the stability of the fixed design of the single-side shaft is poor, the length of the single-side shaft twisting roller can only be controlled to be about 120 mm and cannot be longer, and the production with high capacity cannot be realized.

In summary, in order to meet the requirements of large-capacity and large-scale production, enterprises for food, pharmacy and the like generally need to purchase a large amount of equipment and a large amount of personnel to operate the equipment, so that the problems of large floor area, low capacity, low efficiency, high production cost and the like of a production workshop are caused. Careful analysis has made it easy to find out that the problems are in the mechanisms for achieving the rolling cut and the rounding.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a food is rolled surely and is rubbed round mechanism with hands to productivity, efficiency have been improved, low in production cost.

In order to achieve the above purpose, the solution of the present invention is:

a food rolling-cutting rounding mechanism comprises a driving motor, a cam shaft, a left cam, a right cam, a left hollow shaft, a right hollow shaft, a left roller shaft, a right roller shaft and a left cutting roller; the driving motor drives the cam shaft to rotate, the cam shaft is provided with a left cam and a right cam, and the protruding directions of the left cam and the right cam are opposite; the driving motor also drives left and right hollow shafts which are arranged in parallel to rotate relatively, and the left and right hollow shafts are vertical to the cam shaft and respectively correspond to the left and right cams; the left and right cutting rollers are fixedly arranged on the left and right roll shafts; the two ends of the left and right roll shafts are erected on the frame, one ends of the left and right roll shafts respectively penetrate through the left and right hollow shafts and are always abutted against the corresponding left and right cams under the action of the return springs, and the roll shafts and the hollow shafts are connected together in an axially slidable mode through radial limiting; the driving motor drives the left and right roll shafts to rotate through the hollow shaft, so that the left and right cutting rolls realize the rolling and cutting actions, and the driving motor drives the left and right cams to rotate through the cam shaft, pushes the left and right roll shafts to axially move in a staggered manner, and enables the left and right cutting rolls to realize the rounding actions.

The driving motor is provided with a hobbing motor and a rounding motor, the rounding motor is driven to rotate by a cam shaft, and the hobbing motor is driven to rotate relative to the left hollow shaft and the right hollow shaft.

The hobbing motor is transmitted to a hobbing driving shaft, a driving gear is fixed on the hobbing driving shaft, left and right driven gears are respectively fixed on the left and right hollow shafts and meshed with the driving gear, and the left and right hollow shafts are relatively rotated through transmission of the driving gear to the left and right driven gears.

The two ends of the left and right roll shafts are erected on the frame by means of bearings.

The end of the left and right roll shafts close to the hollow shaft is erected on the rack by means of a bearing, and the end of the left and right roll shafts far away from the hollow shaft is erected on the rack by means of a positioning wheel frame.

The reset spring is arranged between one end of the left and right roll shafts far away from the hollow shaft and the frame.

The mode that the roller shaft and the hollow shaft are limited in the radial direction and can slide in the axial direction is as follows: the left hollow shaft and the right hollow shaft are provided with axial grooves, and the left roll shaft and the right roll shaft are provided with shifting rods which are inserted into the axial grooves of the left hollow shaft and the right hollow shaft.

The reset spring is sleeved on the roll shaft, one end of the reset spring is propped against the shifting rod, and the other end of the reset spring is propped against the rack.

An oil tank is arranged on the frame, and the left hollow shaft and the right hollow shaft are installed in the oil tank. The roll shaft is sleeved with a return spring, the return spring is positioned in the oil tank, one end of the return spring is abutted against the driving lever, and the other end of the return spring is abutted against the wall of the oil tank.

After the scheme is adopted, the utility model discloses because the both ends of roller erect in the frame about with, two side axles are fixed promptly for cut the roller and fix more stably, be fit for high-speed rotatory hobbing more and come and go the needs of rubbing with the hands the circle, the length of cutting the roller can extend to 1000 millimeters, realizes the production of big productivity, and equipment is small, and area is little.

The utility model discloses a produce the new equipment of novel ball type food, pet or pellet etc. can produce the circular shape food of different specifications according to the size of cutting the roller mould, if: taro balls, glue puddings, cat litter, pet food, traditional Chinese medicine pills and the like break through the problem that the traditional rounding machine has small capacity due to the small length of the rounding roller, the purpose that the length of the cutting roller is not limited is achieved, the production purpose of higher capacity can be achieved, the capacity, the efficiency and the product quality are effectively improved, the product roundness is good, the automation degree is improved, and the production cost is reduced.

Drawings

FIG. 1 is a schematic perspective view of the present invention applied to a food processing apparatus;

FIG. 2 is a perspective view of the present invention;

fig. 3 is a top view of the present invention;

fig. 4 is a side view of the present invention;

fig. 5 is a top view of the present invention with the frame omitted.

Description of the reference symbols

The device comprises a driving motor 1, a rolling cutting motor 11, a belt pulley group 111, a rounding motor 12, a gear group 121, a rolling cutting driving shaft 13 and a driving gear 14; a camshaft 2; a cam 3; hollow shaft 4, driven gear 41, axial groove 42; the roller shaft 5, a shift lever 51 and a bearing 52; a cutting roller 6; a return spring 7; a positioning wheel 8; an oil tank 9; a frame 10.

Detailed Description

As shown in fig. 1 to 5, the utility model discloses a food rolling-cutting rounding mechanism, which is suitable for a rounding forming device, comprising a driving motor 1, a cam shaft 2, a left cam 3, a right cam 3, a left hollow shaft 4, a right hollow shaft 5, a left cutting roller 6, a right cutting roller 6.

The driving motor 1 may specifically have a hobbing motor 11 and a rounding motor 12. The rounding motor 12 is driven by the gear set 121 to rotate on the cam shaft 2, and the hobbing motor 11 is driven by the left and right hollow shafts 4 arranged in parallel to rotate relatively. Further, as shown in the drawings but not limited to the illustrated structure, the rolling-cut motor 11 is transmitted to the rolling-cut driving shaft 13 through a pulley set 111, a driving gear 14 is fixed to the rolling-cut driving shaft 13, left and right driven gears 41 are fixed to the left and right hollow shafts 4 and engaged with the driving gear 14, respectively, and the driving gear 14 is transmitted to the left and right driven gears 41 to rotate the left and right hollow shafts 4 relatively.

Left and right cams 3 are mounted on the camshaft 2, and the protruding directions of the left and right cams 3 are opposite.

The left and right hollow shafts 4 are perpendicular to the camshaft 2 and correspond to the left and right cams 3, respectively.

The left and right cutting rollers 6 are fixedly arranged on the left and right roller shafts 5, and the left and right cutting rollers 6 are driven by the left and right roller shafts 5 to carry out the rolling cutting and the rounding actions.

Both ends of the left and right roll shafts 5 are erected on the frame 10. One end of each of the left and right roller shafts 5 passes through the left and right hollow shafts 4, and is always abutted against the corresponding left and right cams 3 by the action of the return spring 7. The roll shaft 5 and the hollow shaft 4 are connected together in an axially slidable manner by adopting a radial limit. The roller shaft 5 and the hollow shaft 4 are axially slidable by adopting a radial limiting manner, and the axial limiting manner can be as shown in the figures but not limited to the structures shown in the figures, specifically: the left hollow shaft 4 and the right hollow shaft 4 are provided with axial grooves 42, the left roll shaft 5 and the right roll shaft 5 are provided with deflector rods 51, the deflector rods 51 are inserted in the axial grooves 42 of the left hollow shaft 4 and the right hollow shaft 4, when the hollow shaft 4 rotates, the axial grooves 42 are in radial spacing fit with the deflector rods 51, so that the roll shafts 5 rotate along with the axial grooves, and meanwhile, the deflector rods 51 can slide in the axial grooves 42, so that the roll shafts 5 and the hollow shafts 4 can slide axially relatively.

In the present invention, the shape of the left and right roller shafts 5 erected on the frame 10 may be as shown in the drawings, but not limited to the structure shown in the drawings. In the embodiment shown, one end of the left and right roller shafts 5 close to the hollow shaft 4 is mounted on the frame 10 via a bearing 52, and one end of the left and right roller shafts 5 away from the hollow shaft 4 is mounted on the frame 10 via a positioning wheel 8. Of course, both ends of the left and right roller shafts 5 may be mounted on the frame 10 via bearings 52.

The installation mode of the return spring 7 of the present invention can also be as shown in the figures, but is not limited to the structure shown in the figures. In the embodiment shown, the return spring 7 is sleeved on the roller shaft 5, one end of the return spring 7 abuts against the shift lever 51, and the other end of the return spring 7 can abut against the frame 10, or, further, the frame 10 is provided with the oil tank 9, and the left and right hollow shafts 4 (the driven gear 41 and the driving gear 14 in this embodiment) are installed in the oil tank 9, at this time, the return spring 7 is sleeved on the roller shaft 5, the return spring 7 is located in the oil tank 9, and one end of the return spring 7 abuts against the shift lever 51, and the other end abuts against the wall of the oil tank 9. Of course, the return spring 7 is disposed between the end of the left and right roller shafts 5 away from the hollow shaft 4 and the frame 10, and specifically, the return spring may be disposed at the end where the positioning wheel 8 is mounted.

The utility model discloses the during operation, the raw materials is impeld by the auger, is crowded into strip material through the mould, falls into about and cuts in the incision of roller 6, rolls and cuts motor 11 transmission in roll cutting drive shaft 13, rolls and cuts drive gear 14 on the drive shaft 13 and controls driven gear 41 meshing about on the quill shaft 4 about with, and the quill shaft 4 relative rotation about making also relative rotation of roller 5 about driving, and the roller 6 relative rotation is cut about making, realizes the roll cutting action, cuts into granular material with strip material. Meanwhile, the rounding motor 11 drives the left cam 3 and the right cam 3 to rotate through the cam shaft 2, the left cam 3 and the right cam 3 push the left roller shaft 5 and the right roller shaft 5 to do axial staggered movement, so that the left cutting roller 6 and the right cutting roller 6 realize rounding action, and granular materials are rounded into finished pellets. The forming die of the strip material outlet and the left and right cutting rollers are controlled to be replaced, so that the size of the extrusion die is matched with that of the cutting roller groove, and finished products of pills with different specifications can be manufactured.

The above is only the specific embodiment of the present invention, and is not a limitation to the protection scope of the present invention. All the substitutions, modifications and equivalent changes which are made by adopting the same or similar structural design as the above embodiments of the invention or on the spirit and scope of the invention fall into the protection scope of the present case.

Claims (10)

1. A food rolling-cutting rounding mechanism is characterized in that: comprises a driving motor, a cam shaft, a left cam, a right cam, a left hollow shaft, a right hollow shaft, a left roll shaft, a right roll shaft and a left cutting roll; the driving motor drives the cam shaft to rotate, the cam shaft is provided with a left cam and a right cam, and the protruding directions of the left cam and the right cam are opposite; the driving motor also drives left and right hollow shafts which are arranged in parallel to rotate relatively, and the left and right hollow shafts are vertical to the cam shaft and respectively correspond to the left and right cams; the left and right cutting rollers are fixedly arranged on the left and right roll shafts; the two ends of the left and right roll shafts are erected on the frame, one ends of the left and right roll shafts respectively penetrate through the left and right hollow shafts and are always abutted against the corresponding left and right cams under the action of the return springs, and the roll shafts and the hollow shafts are connected together in an axially slidable mode through radial limiting; the driving motor drives the left and right roll shafts to rotate through the hollow shaft, so that the left and right cutting rolls realize the rolling and cutting actions, and the driving motor drives the left and right cams to rotate through the cam shaft, pushes the left and right roll shafts to axially move in a staggered manner, and enables the left and right cutting rolls to realize the rounding actions.

2. The food rolling, cutting and rounding mechanism as claimed in claim 1, wherein: the driving motor is provided with a hobbing motor and a rounding motor, the rounding motor is driven to rotate by a cam shaft, and the hobbing motor is driven to rotate relative to the left hollow shaft and the right hollow shaft.

3. The food rolling, cutting and rounding mechanism as claimed in claim 2, wherein: the hobbing motor is transmitted to a hobbing driving shaft, a driving gear is fixed on the hobbing driving shaft, left and right driven gears are respectively fixed on the left and right hollow shafts and meshed with the driving gear, and the left and right hollow shafts are relatively rotated through transmission of the driving gear to the left and right driven gears.

4. The food rolling, cutting and rounding mechanism as claimed in claim 1, wherein: the two ends of the left and right roll shafts are erected on the frame by means of bearings.

5. The food rolling, cutting and rounding mechanism as claimed in claim 1, wherein: the end of the left and right roll shafts close to the hollow shaft is erected on the rack by means of a bearing, and the end of the left and right roll shafts far away from the hollow shaft is erected on the rack by means of a positioning wheel frame.

6. The food rolling, cutting and rounding mechanism as claimed in claim 1, wherein: the reset spring is arranged between one end of the left and right roll shafts far away from the hollow shaft and the frame.

7. The food rolling, cutting and rounding mechanism as claimed in claim 1, wherein: the mode that the roller shaft and the hollow shaft are limited in the radial direction and can slide in the axial direction is as follows: the left hollow shaft and the right hollow shaft are provided with axial grooves, and the left roll shaft and the right roll shaft are provided with shifting rods which are inserted into the axial grooves of the left hollow shaft and the right hollow shaft.

8. The food rolling, cutting and rounding mechanism as claimed in claim 7, wherein: the reset spring is sleeved on the roll shaft, one end of the reset spring is propped against the shifting rod, and the other end of the reset spring is propped against the rack.

9. The food rolling, cutting and rounding mechanism as claimed in claim 1 or 7, wherein: an oil tank is arranged on the frame, and the left hollow shaft and the right hollow shaft are installed in the oil tank.

10. The food rolling, cutting and rounding mechanism as claimed in claim 9, wherein: the roll shaft is sleeved with a return spring, the return spring is positioned in the oil tank, one end of the return spring is abutted against the driving lever, and the other end of the return spring is abutted against the wall of the oil tank.

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