CN217615163U - Konjaku ball milling equipment - Google Patents

Abstract

The utility model provides a konjak ball grinding device, which comprises a casing, wherein a communicating material planing cavity and a grinding material cavity are sequentially arranged in the casing from top to bottom, a feed hopper communicated with the material planing cavity is fixedly arranged at the upper end of the casing, a material planing cylinder is rotatably arranged between the feed hopper and the material planing cavity to plane and cut konjak balls in the feed hopper, and crushed materials after slicing fall into the material planing cavity; a conveying channel is arranged between the material planing cavity and the grinding material cavity, and crushed materials enter the grinding material cavity through the conveying channel and are led out of the machine shell after being subjected to grinding through the grinding material cavity. The utility model discloses a dig the feed cylinder and dig the cutting to the konjaku ball for the crushed aggregates after digging the cutting is more even, consequently can avoid causing the jam, thereby has avoided the problem that machining efficiency reduces.

Description

Konjaku ball milling equipment

Technical Field

The utility model relates to a milling equipment technical field especially relates to a konjaku ball milling equipment.

Background

The konjak ball (i.e. konjak bulb) can be made into konjak gum after deep processing, so that the by-product value of konjak can be increased. During processing, the konjak balls are cleaned, crushed and ground. Among the prior art, broken and crocus generally adopt milling equipment to go on, like prior art CN213287189U provides a konjaku milling equipment, belongs to konjaku processing equipment technical field, the power distribution box comprises a box body, the box is including smashing storehouse and grinding storehouse, it includes feed inlet, the crushing storehouse body, broken sword and rotor to smash the storehouse, broken sword passes through the arbor and is connected with the rotor, be equipped with the center pin on the rotor, the interval slightly of the crushing storehouse body and rotor is greater than the length that the broken sword stretches out the rotor, crushing storehouse body lower extreme is equipped with the conveying pipe, it is equipped with grinding storehouse to smash the storehouse below, it is equipped with the rolling disc to grind between storehouse and the crushing storehouse, be equipped with driving motor on the rolling disc, it includes head and lower mill to smash the storehouse, head upper end central point puts and has seted up the through-hole, head upper end is equipped with the axis of rotation, axis and driving motor electric connection, it is equipped with the discharge gate to grind the storehouse lower extreme, this utility model simple operation, the practicality is strong, has effectively solved current crocus equipment inhomogeneous, and has the problem that production efficiency is low.

Among the above prior art, rotate through the rotor and drive broken sword rotation in smashing the storehouse to carry out the breakage to the konjaku ball, crushed aggregates after the breakage probably differs in size, probably leads to the conveying pipe to block up after the conveying pipe that gets into the below, thereby makes to shut down and clears up, finally makes machining efficiency reduce.

SUMMERY OF THE UTILITY MODEL

Not enough to exist among the prior art, the utility model provides a konjaku ball milling equipment, it has solved among the prior art because the crushed aggregates after the breakage probably exists the problem that leads to the conveying pipe to block up reduction machining efficiency not of uniform size.

According to the embodiment of the utility model, the konjak ball grinding device comprises a shell, wherein a communicating material planing cavity and a grinding material cavity are sequentially arranged in the shell from top to bottom, a feed hopper communicated with the material planing cavity is fixedly arranged at the upper end of the shell, a material planing barrel is rotatably arranged between the feed hopper and the material planing cavity to plane and cut konjak balls in the feed hopper, and crushed materials after planing and cutting fall into the material planing cavity; a conveying channel is arranged between the material planing cavity and the grinding cavity, and crushed materials enter the grinding cavity through the conveying channel and are then grinded by the grinding cavity and then are led out of the machine shell.

In the above embodiment, during slicing, the konjac balls in the feed hopper are sliced through rotation of the slicing barrel, and crushed materials generated after slicing immediately fall into the lower slicing cavity, and then subsequent milling processing is continued; specifically, this embodiment adopts the mode of digging the material to dig the cutting to the konjaku ball, and the crushed aggregates of digging the cutting is more even, has consequently avoided causing the problem of jam, has consequently avoided because of stopping up the clearance of shutting down that leads to, has improved machining efficiency.

Furthermore, the material planing barrel comprises a rotating cylinder, two ends of the rotating cylinder are rotatably connected with the inner wall of the material planing cavity, the rotating cylinder is positioned in the material planing cavity, a plurality of material planing teeth are fixedly arranged on the outer wall of the rotating cylinder, a communication channel is also arranged between the feed hopper and the material planing cavity, and part of the material planing teeth are accommodated in the lower end of the communication channel; and a first motor for driving the rotary drum to rotate is fixedly arranged outside the machine shell.

Furthermore, a movable grinding disc is horizontally and rotatably arranged in the grinding material cavity, the outer edge of the movable grinding disc is in sliding contact with the inner wall of the grinding material cavity, the grinding material cavity is divided into an upper cavity and a lower cavity by the movable grinding disc, the upper cavity is communicated with the conveying channel, the inner bottom surface of the lower cavity protrudes upwards to form a fixed grinding table, a horizontal gap is reserved between the movable grinding disc and the fixed grinding table, and a plurality of leakage holes positioned right above the fixed grinding table are formed in the movable grinding disc; the movable grinding disc and the shell are also provided with a material guide hopper communicated with the lower chamber and the outside; still be provided with the installation cavity in the casing, still install the drive in the installation cavity move mill pivoted second motor.

Further, the installation cavity is located below the grinding cavity, the rotating shaft of the second motor extends upwards and is fixedly connected with a driving shaft, and the driving shaft rotates upwards to penetrate into the grinding cavity and is fixedly connected with the movable grinding disc.

Furthermore, the upper end of the driving shaft penetrates through the movable grinding disc and is fixedly connected with an agitating blade positioned in the upper chamber.

Further, the upper end face of the driving shaft is fixedly connected with a screw rod, the screw rod extends upwards and penetrates into the conveying channel, and the screw rod is in sliding contact with the inner wall of the conveying channel.

Further, the upper end of the screw rod extends into the material planing cavity.

Furthermore, the movable grinding disc comprises a disc bottom positioned right above the fixed grinding table and a ring wall fixedly connected with the outer edge of the disc bottom, the ring wall is in sliding contact with the inner wall of the grinding material cavity, and the leakage hole is formed in the disc bottom.

Furthermore, the lower chamber is positioned at a position lower than the other side of the fixed grinding table at one side, the guide hopper is communicated with the lower side of the lower chamber through a connecting channel, and one end of the connecting channel facing the outside of the shell is lower than the other end of the connecting channel.

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

adopt the mode of slicing to slice the konjaku ball, the crushed aggregates that the slicing produced is more even consequently avoided causing the jam to can not cause the reduction of machining efficiency because of blockking up shut down the clearance.

Drawings

Fig. 1 is a schematic diagram of the overall structure of an embodiment of the present invention;

FIG. 2 is an enlarged view of a portion of the structure at A in FIG. 1;

in the above drawings:

the grinding machine comprises a machine shell 1, a material planing cavity 2, a grinding material cavity 3, a feed hopper 4, a conveying channel 5, a material planing barrel 6, a rotary drum 7, a material planing tooth 8, a communicating channel 9, a movable grinding disc 10, an upper cavity 11, a lower cavity 12, a fixed grinding table 13, a material guide hopper 14, a mounting cavity 15, a second motor 16, a disc bottom 17, a ring wall 18, a driving shaft 19, a stirring blade 20, a screw rod 21 and a connecting channel 22.

Detailed Description

The technical solution of the present invention is further explained with reference to the drawings and the embodiments.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and for simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

As shown in fig. 1, the present embodiment provides a konjac ball grinding apparatus, which includes a casing 1, a material planing chamber 2 and a material grinding chamber 3 which are communicated with each other are sequentially arranged in the casing 1 from top to bottom, a feed hopper 4 which is communicated with the material planing chamber 2 is fixedly installed at the upper end of the casing 1, a material planing barrel 6 is rotatably arranged between the feed hopper 4 and the material planing chamber 2 to plane konjac balls in the feed hopper 4, and crushed materials after planing fall into the material planing chamber 2; a conveying channel 5 is arranged between the material planing cavity 2 and the grinding material cavity 3, and crushed materials enter the grinding material cavity 3 through the conveying channel 5 and are then grinded by the grinding material cavity 3 and then are led out of the machine shell 1.

In the above embodiment, during slicing, the konjac balls are placed into the feeding hopper 4, meanwhile, the flowing water is added into the feeding hopper 4, and the flowing water is kept added in the whole slicing process, the konjac balls in the feeding hopper 4 are sliced through the rotation of the slicing barrel 6, the crushed materials generated after slicing fall into the lower slicing cavity 2 along with the flowing water, and the subsequent milling processing is continued after the slicing cavity 2 is filled with the feed liquid (i.e., the mixed liquid of the crushed materials and the flowing water); specifically, this embodiment adopts the mode of digging the material to dig the cutting to the konjaku ball, and the cooperation flowing water erodees simultaneously, and the crushed aggregates of digging the cutting is more even, has consequently avoided causing the problem of jam, has consequently avoided because of stopping up the clearance that leads to, has improved machining efficiency.

As shown in fig. 1 and 2, the material planing barrel 6 comprises a rotating cylinder 7 with two ends rotatably connected with the inner wall of the material planing cavity 2, the rotating cylinder 7 is positioned in the material planing cavity 2, a plurality of material planing teeth 8 are fixedly arranged on the outer wall of the rotating cylinder 7, a communication channel 9 is also arranged between the feed hopper 4 and the material planing cavity 2, and part of the material planing teeth 8 are accommodated in the lower end of the communication channel 9; a first motor (not shown) for driving the drum 7 to rotate is fixedly mounted outside the casing 1. Specifically, first motor operation drives the rotary drum 7 and rotates, thereby plane material tooth 8 rotates along with rotary drum 7 and continuously gets into or leaves communicating channel 9, and the konjaku ball then falls communicating channel 9 in from feeder hopper 4, communicating channel 9 below is blockked up by rotary drum 7 and partial plane material tooth 8 and makes the konjaku ball directly can not fall into plane material chamber 2 in, plane material tooth 8 and continuously plane the konjaku ball along with the operation of first motor and cut to make the konjaku ball cut into the crushed aggregates and enter into plane material chamber 2 in.

As shown in fig. 1, a movable grinding disc 10 is horizontally and rotatably arranged in the grinding cavity 3, the outer edge of the movable grinding disc 10 is in sliding contact with the inner wall of the grinding cavity 3, the movable grinding disc 10 divides the grinding cavity 3 into an upper chamber 11 and a lower chamber 12, the upper chamber 11 is communicated with a conveying channel 5, crushed aggregates enter the upper chamber 11 through the conveying channel 5, the inner bottom surface of the lower chamber 12 protrudes upwards to form a fixed grinding table 13, a horizontal gap is left between the movable grinding disc 10 and the fixed grinding table 13, and a plurality of leakage holes positioned right above the fixed grinding table 13 are formed in the movable grinding disc 10; a material guide hopper 14 which is communicated with the lower chamber 12 and the outside is also arranged on the movable grinding disc 10 and the machine shell 1; a mounting cavity 15 is further arranged in the machine shell 1, and a second motor 16 for driving the movable grinding disc 10 to rotate is further arranged in the mounting cavity 15. When the grinding material is used, the arranged leakage holes allow the crushed materials to pass through the horizontal gap, the second motor 16 operates to drive the movable grinding disc 10 to rotate, the crushed materials are rubbed by the movable grinding disc 10 and the fixed grinding table 13 in the horizontal gap to achieve the purpose of grinding, and then the crushed materials are led out of the casing 1 through the guide hopper 14, specifically, mixed liquid (namely, mixed material) of the konjac flour and water is led out of the casing 1 in the embodiment, and then the konjac flour product can be obtained through subsequent filtering, drying and the like.

As shown in FIG. 1, the movable grinding disc 10 comprises a disc bottom 17 positioned right above the fixed grinding table 13 and an annular wall 18 fixedly connected with the outer edge of the disc bottom 17, the annular wall 18 is in sliding contact with the inner wall of the grinding material cavity 3, and the leakage holes are formed in the disc bottom 17, so that the sliding contact surface between the periphery of the movable grinding disc 10 and the grinding material cavity 3 is larger, and the movable grinding disc 10 can rotate more stably.

As shown in fig. 1, the mounting cavity 15 is located below the grinding cavity 3, the rotating shaft of the second motor 16 extends upward and is fixedly connected with a driving shaft 19, the driving shaft 19 rotates upward to penetrate into the grinding cavity 3 and is fixedly connected with the movable grinding disc 10, and specifically, the second motor 16 drives the movable grinding disc 10 to rotate through the driving shaft 19 during operation, so that grinding is realized;

further, the upper end of the driving shaft 19 passes through the movable grinding disc 10 and is fixedly connected with the stirring vanes 20 located in the upper chamber 11, and the set stirring also rotates along with the movable grinding disc 10, so that the crushed aggregates before being ground can be stirred, and the uniformity of the mixture of the crushed aggregates and water is improved.

As shown in fig. 1, a screw rod 21 is fixedly connected to an upper end face of the driving shaft 19, the screw rod 21 extends upward and penetrates into the conveying passage 5, the screw rod 21 is in sliding contact with an inner wall of the conveying passage 5, specifically, the device provided in this embodiment is in an intermittent operation mode, and the provided screw blade has a temporary closing effect on the conveying passage 5, that is, the second motor 16 does not operate, the second motor 16 is started to operate after the material planing is finished, and the mixture in the material planing chamber 2 is pulled into the abrasive chamber 3 through the screw rod 21 and is synchronously milled;

in another embodiment, the present embodiment provides a device that can also be used for both the milling and the planing, i.e., the first and second motors 16 are operated simultaneously, i.e., in a continuous mode of operation.

As shown in fig. 1, the upper end of the screw 21 extends into the planing chamber 2, which also provides for improved homogenization of the mixture in the planing chamber 2 when the second motor 16 is operated.

As shown in fig. 1, the lower chamber 12 is located at a position lower than the other side of the fixed grinding table 13 at one side, the guide hopper 14 is communicated with the lower side of the lower chamber 12 through the connecting passage 22, and one end of the connecting passage 22 facing the outside of the machine shell 1 is lower than the other end, so that the pulverized mixture can more quickly enter the guide hopper 14 through the connecting passage 22, and can be smoothly guided out of the machine shell 1;

further, the material guiding hopper 14 is also arranged obliquely, and one end communicated with the outside is positioned at a lower position.

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

Claims (9)

1. A konjak ball grinding device is characterized by comprising a casing, wherein a digging cavity and a grinding cavity which are communicated with each other are sequentially arranged in the casing from top to bottom, a feed hopper communicated with the digging cavity is fixedly mounted at the upper end of the casing, a digging cylinder is rotatably arranged between the feed hopper and the digging cavity to dig konjak balls in the feed hopper, and crushed materials after digging fall into the digging cavity; a conveying channel is arranged between the material planing cavity and the grinding cavity, and crushed materials enter the grinding cavity through the conveying channel and are led out of the machine shell after being ground through the grinding cavity.

2. The konjac ball milling apparatus as claimed in claim 1, wherein the milling barrel comprises a rotating barrel with both ends rotatably connected to the inner wall of the milling chamber, the rotating barrel is located in the milling chamber and has a plurality of milling teeth fixedly disposed on the outer wall thereof, a communication passage is further provided between the feed hopper and the milling chamber and a part of the milling teeth are accommodated in the lower end of the communication passage; and a first motor for driving the rotary drum to rotate is fixedly arranged outside the machine shell.

3. The konjac ball grinding device according to claim 2, wherein a movable grinding disc is horizontally and rotatably disposed in the grinding chamber, an outer edge of the movable grinding disc is in sliding contact with an inner wall of the grinding chamber, the movable grinding disc divides the grinding chamber into an upper chamber and a lower chamber, the upper chamber is communicated with the conveying passage, an inner bottom surface of the lower chamber protrudes upward to form a fixed grinding table, a horizontal gap is left between the movable grinding disc and the fixed grinding table, and a plurality of leak holes are formed in the movable grinding disc and located right above the fixed grinding table; the movable grinding disc and the shell are also provided with a material guide hopper which is communicated with the lower chamber and the outside; still be provided with the installation cavity in the casing, still install the drive in the installation cavity move mill pivoted second motor.

4. The konjac ball mill of claim 3, wherein the installation chamber is located below the milling chamber, and the second motor has a rotation shaft extending upward and fixedly connected to a driving shaft, and the driving shaft is rotated upward to penetrate the milling chamber and fixedly connected to the movable milling disk.

5. The konjac ball milling apparatus as set forth in claim 4, wherein the upper end of the driving shaft passes through the movable milling plate and is fixedly connected with the agitating blade located in the upper chamber.

6. The konjak ball milling apparatus of claim 5, wherein a screw is fixedly connected to an upper end surface of the driving shaft, the screw extending upward and penetrating into the feeding passage, the screw being in sliding contact with an inner wall of the feeding passage.

7. The konjac ball milling apparatus as set forth in claim 6, wherein an upper end of the screw rod extends into the milling chamber.

8. The konjak ball milling apparatus of any one of claims 3 to 7, wherein the movable grinding table includes a table bottom located directly above the fixed grinding table and a ring wall fixedly connected to an outer edge of the table bottom, the ring wall being in sliding contact with an inner wall of the grinding chamber, and the leakage holes being provided on the table bottom.

9. The konjac ball milling apparatus as claimed in claim 8, wherein the lower chamber is located at a position lower than the other side of the stationary milling table on one side, the guide hopper and the lower side of the lower chamber are communicated through a connection passage, and one end of the connection passage facing the outside of the housing is lower than the other end.

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