CN220514949U - A remove powder device for noodless surface - Google Patents

Abstract

The utility model discloses a powder removing device for the surface of noodles, which belongs to the technical field of noodle processing and comprises a processing table; the processing table is provided with a powder shaking groove; a plurality of rotating rollers are rotationally connected between the opposite side walls of the powder shaking groove; a gap is formed between adjacent rotating rollers; the processing table is provided with a powder suction unit positioned above the rotating roller; a shaking unit which can shake the noodles passing through the rotating roller is arranged on one side of the processing table, which is away from the powder suction unit; according to the flour shaking device, through the cooperation of the shaking unit and the flour absorbing unit, the shaking unit shakes off redundant flour attached to the noodles, the flour absorbing unit can collect the shaken-off flour timely, the flour can be efficiently collected, the flour is prevented from being accumulated in a shaking groove or other places, and the cleanliness and sanitation of a production process are ensured.

Description

A remove powder device for noodless surface

Technical Field

The utility model belongs to the technical field of noodle processing, and particularly relates to a powder removing device for the surface of noodles.

Background

The noodles are food which is made by using wheat flour and clear water as main raw materials and through the processes of rolling noodles, cutting and the like. In the process of making noodles, in order to prevent the noodles from being stuck on a panel for making the noodles, a layer of dry flour needs to be spread on the panel, and when the noodles are used, the superfluous flour on the surface of the noodles needs to be cleaned so as not to influence the quality of the noodles.

CN216988988U discloses a device for removing superfluous flour on the surface of noodles, which drives a shell to vibrate through a rotating cam, so that superfluous flour adhered on the noodles is shaken off and falls into the shell from a grid plate on the upper side wall of the shell, and meanwhile, the device is matched with an ash suction mechanism to absorb the flour adhered on the grid plate and not shaken off, so that the flour adhered on the noodles is removed; however, as the amount of flour collected in the housing increases, the flour in the housing may reattach to the noodles through the mesh plate when the cam hits the housing, thereby affecting the quality and taste of the noodles.

Disclosure of Invention

Accordingly, an object of the present utility model is to provide a powder removing device for noodle surfaces, which solves the above-mentioned problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a powder removing device for the surface of noodles, which comprises a processing table; the processing table is provided with a powder shaking groove; a plurality of rotating rollers are rotationally connected between the opposite side walls of the powder shaking groove; a gap is formed between adjacent rotating rollers; the processing table is provided with a powder suction unit positioned above the rotating roller; one side of the processing table, which is away from the powder suction unit, is provided with a shaking unit which can shake the noodles passing through the rotating roller.

Further, the shaking unit comprises a surface blowing pipe communicated with the powder shaking groove; a blowing fan is eccentrically arranged in the blowing pipe; a baffle disc positioned between the blowing fan and the processing table is rotationally arranged in the blowing pipe.

Further, the powder suction unit comprises a powder suction cover arranged on the workbench; the powder suction cover is provided with a plurality of powder suction holes; the powder suction cover is provided with a powder suction cover capable of sucking powder.

Further, the powder suction holes are distributed in a row shape; the side wall of the powder suction cover, which is close to the processing table, is provided with a plurality of parting strips; each parting bead is positioned between two adjacent rows of powder suction holes.

Further, a top plate is arranged on the powder suction cover; a plurality of rows of powder suction pipes are communicated with the top plate; the powder suction pipes in each row are coaxial with the powder suction holes in the corresponding row.

Further, one side of the powder suction cover is communicated with a powder suction cover positioned above the rotating roller.

Further, one end of each parting bead close to the rotating roller is in arc transition.

Further, the processing table is provided with anti-drop plates positioned at two ends of the rotating roller.

Further, a clamping groove communicated with the powder shaking groove is formed in the processing table; a collecting box positioned below the rotating roller is clamped in the clamping groove; the shake unit is arranged on one side of the collecting box, which is away from the processing table.

The utility model has the beneficial effects that:

according to the flour shaking device, through the cooperation of the shaking unit and the flour absorbing unit, the shaking unit shakes off redundant flour attached to the noodles, the flour absorbing unit can collect the shaken-off flour timely, the flour can be efficiently collected, the flour is prevented from being accumulated in a shaking groove or other places, and the cleanliness and sanitation of a production process are ensured.

Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model. The objects and other advantages of the utility model may be realized and obtained by means of the instrumentalities and combinations particularly pointed out in the specification.

Drawings

In order to make the objects, technical solutions and advantageous effects of the present utility model more clear, the present utility model provides the following drawings for description:

FIG. 1 is a three-dimensional view of a powder removing device of the present utility model;

FIG. 2 is a three-dimensional view of a blow-down tube according to the present utility model;

FIG. 3 is a three-dimensional view of a baffle plate of the present utility model;

FIG. 4 is a three-dimensional view of the attachment of the suction cap and parting bead of the present utility model;

fig. 5 is a three-dimensional view of the structure above the suction hood of the present utility model.

The figures are marked as follows: the processing table 1, the rotating roller 2, the blowing pipe 3, the blowing fan 4, the rotating shaft 5, the baffle disc 6, the powder suction cover 7, the powder suction holes 8, the powder suction cover 9, the powder discharge pipe 10, the parting bead 11, the top plate 12, the powder suction pipe 13, the powder suction cover 14, the falling prevention plate 15 and the collecting box 16.

Detailed Description

As shown in fig. 1 to 5, the present utility model provides a powder removing device for noodle surfaces, comprising a processing table 1; the processing table 1 is provided with a powder shaking groove which is arranged in a penetrating way; a plurality of horizontally arranged rotating rollers 2 are rotatably connected between the opposite side walls of the powder shaking groove; a gap is arranged between the adjacent rotating rollers 2; the processing table 1 is provided with a powder suction unit positioned above the rotating roller 2; the side of the processing table 1, which is away from the powder suction unit, is provided with a shaking unit which can shake the noodles passing through the rotating roller 2.

The principle and beneficial effect of the technical scheme are that:

the noodle is transported to the processing table 1 from the side with the rotating roller 2 through the conveyor belt, when the noodle passes through the rotating roller 2, the shaking unit can shake the noodle on the rotating roller 2, so that flour attached to the noodle can be shaken off, and meanwhile, the flour absorbing unit above can absorb the shaken off flour, so that flour attached to the flour can be removed; the noodles after the powder removal are conveyed to the next process by a conveyor belt on the other side of the processing table 1.

According to the flour shaking device, through the cooperation of the shaking unit and the flour absorbing unit, the shaking unit shakes off redundant flour attached to the noodles, the flour absorbing unit can collect the shaken-off flour timely, the flour can be efficiently collected, the flour is prevented from being accumulated in a shaking groove or other places, and the cleanliness and sanitation of a production process are ensured.

In this embodiment, as shown in fig. 1-3, the shaking unit includes a blowing pipe 3 communicating with the shaking tank; the blowing surface pipe 3 is positioned below the processing table 1; the inner side wall of the blowing pipe 3 is eccentrically provided with a blowing fan 4 through a fixing strip; a baffle disc 6 positioned between the blowing fan 4 and the processing table 1 is rotatably arranged in the blowing pipe 3 through a rotating shaft 5; the rotary shaft 5 is provided through the baffle plate 6, and the blow fan 4 is located on one side of the rotary shaft 5 in a top view.

The principle and beneficial effect of the technical scheme are that:

the noodle blowing fan 4 blows air into the rotating groove, so that the blowing baffle disc 6 rotates, the baffle disc 6 can intermittently block the noodle blowing pipe 3, the sent wind force can intermittently blow the noodles on the rotating roller 2, then the noodles fall on the rotating roller 2 under the action of gravity, the noodles shake on the rotating roller 2, and flour attached to the noodles is shaken off.

Because the blowing fan 4 can continuously blow air upwards, the buffeting flour can be pushed to float upwards, so that the flour absorbing unit is helped to absorb the flour, the flour absorbing speed is increased, and meanwhile, the flour can be ensured not to be accumulated in the flour shaking groove.

In this embodiment, as shown in fig. 1, 4 and 5, the powder suction unit includes a powder suction cover 7 mounted on the workbench; the cross section of the powder suction cover 7 is inverted U-shaped; the powder suction cover 7 is provided with a plurality of powder suction holes 8; a powder suction cover 9 is arranged on the powder suction cover 7 in a contact manner; a plurality of powder discharge pipes 10 are communicated above the powder suction cover 9; the upper end of the powder discharge pipe 10 is communicated with an external fan.

The principle and beneficial effect of the technical scheme are that:

when the noodles pass through the rotating roller 2, the noodles continue to move to the processing table 1, and when the noodles pass through the powder suction cover 7, an external fan generates suction force to absorb the flour possibly adhered to the noodles through the powder suction holes 8, so that the flour is pumped out through the powder discharge pipe 10 under the action of the external fan, and the flour adhered to the noodles is further reduced; meanwhile, the powder suction cover 7 can block the noodles, ensure that the noodles cannot be pulled out through the powder suction holes 8, and simultaneously realize the absorption and cleaning of the flour.

In this embodiment, as shown in fig. 4, a plurality of powder suction holes 8 are distributed in a row shape; the side wall of the powder suction cover 7, which is close to the processing table 1, is connected with a plurality of rows of partition strips 11 distributed; each division bar 11 is positioned between two adjacent rows of powder suction holes 8.

The principle and beneficial effect of the technical scheme are that:

the setting of parting bead 11 can shunt the noodle to avoid the noodless to gather together, can make the noodless disperse, and then more thoroughly with the absorbing of the flour that adheres to on the noodless.

In the embodiment, as shown in fig. 5, a top plate 12 is mounted on the side wall of the powder suction cover 9 close to the powder suction cover 7; a plurality of rows of powder suction pipes 13 are communicated with the top plate 12; the powder suction pipe 13 in each row is coaxial with the powder suction hole 8 in the corresponding row; the lower side wall of the top plate 12 is in contact with the upper side wall of the powder suction cover 7.

The principle and beneficial effect of the technical scheme are that:

the powder suction pipe 13 can be positioned above the corresponding powder suction hole 8 in a targeted manner, so that the absorption speed of flour adhered to the noodles is increased through the powder suction hole 8.

In this embodiment, as shown in fig. 1, a powder suction cover 14 located above the rotating roller 2 is provided on one side of the powder suction cover 9 in communication.

The principle and beneficial effect of the technical scheme are that:

flour shaken out by the shaking unit can be absorbed by the flour extraction cover 14, and discharged through the flour discharge pipe 10 by the flour extraction cover 14.

In this embodiment, as shown in fig. 4, the parting bead 11 transitions in a circular arc near one end of the rotating roller 2.

The principle and beneficial effect of the technical scheme are that:

the arc transition has the advantages that the noodles passing through the powder suction cover 7 can be guided, the noodles can smoothly pass through, and the noodles are prevented from being blocked on the parting bead 11.

In this embodiment, as shown in fig. 1, the upper side wall of the processing table 1 is provided with drop-preventing plates 15 at both ends of the rotating roller 2.

The principle and beneficial effect of the technical scheme are that:

the falling-preventing plate 15 can guide the noodles near the edge, and avoid the noodles falling from the processing table 1.

In this embodiment, as shown in fig. 1, a T-shaped clamping groove communicated with a powder shaking groove is formed in the rear side wall of a processing table 1; a collecting box 16 positioned below the rotating roller 2 is clamped in the clamping groove; the upper end of the blow-surface pipe 3 communicates with a collection box 16.

The principle and beneficial effect of the technical scheme are that:

by sliding the collecting box 16, the blowing face pipe 3 can be taken out, thereby facilitating cleaning.

Finally, it is noted that the above-mentioned preferred embodiments are only intended to illustrate rather than limit the utility model, and that, although the utility model has been described in detail by means of the above-mentioned preferred embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the scope of the utility model as defined by the appended claims.

Claims (9)

1. A remove powder device for noodless surface, its characterized in that: comprises a processing table; the processing table is provided with a powder shaking groove; a plurality of rotating rollers are rotationally connected between the opposite side walls of the powder shaking groove; a gap is formed between adjacent rotating rollers; the processing table is provided with a powder suction unit positioned above the rotating roller; one side of the processing table, which is away from the powder suction unit, is provided with a shaking unit which can shake the noodles passing through the rotating roller.

2. A powder removing device for a noodle surface according to claim 1, wherein: the shaking unit comprises a surface blowing pipe communicated with the powder shaking groove; a blowing fan is eccentrically arranged in the blowing pipe; a baffle disc positioned between the blowing fan and the processing table is rotationally arranged in the blowing pipe.

3. A powder removing device for a noodle surface according to claim 1, wherein: the powder suction unit comprises a powder suction cover arranged on the workbench; the powder suction cover is provided with a plurality of powder suction holes; the powder suction cover is provided with a powder suction cover capable of sucking powder.

4. A powder removing device for a noodle surface according to claim 3, wherein: the powder suction holes are distributed in a row shape; the side wall of the powder suction cover, which is close to the processing table, is provided with a plurality of parting strips; each parting bead is positioned between two adjacent rows of powder suction holes.

5. A powder removing device for a noodle surface according to claim 3, wherein: a top plate is arranged on the powder suction cover; a plurality of rows of powder suction pipes are communicated with the top plate; the powder suction pipes in each row are coaxial with the powder suction holes in the corresponding row.

6. A powder removing device for a noodle surface according to claim 3, wherein: one side of the powder suction cover is communicated with a powder suction cover positioned above the rotating roller.

7. The powder removing device for a noodle surface according to claim 4, wherein: one end of each parting bead close to the rotating roller is in arc transition.

8. A powder removing device for a noodle surface according to claim 1, wherein: the processing table is provided with anti-drop plates positioned at two ends of the rotating roller.

9. A powder removing device for a noodle surface according to claim 1, wherein: a clamping groove communicated with the powder shaking groove is formed in the processing table; a collecting box positioned below the rotating roller is clamped in the clamping groove; the shake unit is arranged on one side of the collecting box, which is away from the processing table.