CN211510399U

CN211510399U - A system of processing for dough

Info

Publication number: CN211510399U
Application number: CN201921980610.7U
Authority: CN
Inventors: 黄东硕
Original assignee: Shanghai Artisan Food Co ltd
Current assignee: Shanghai Artisan Food Co ltd
Priority date: 2019-11-16
Filing date: 2019-11-16
Publication date: 2020-09-18
Anticipated expiration: 2029-11-16

Abstract

The utility model discloses a system of processing for dough, include: the cutting device and the rounding device are connected with the output end of the cutting device; wherein the dividing means comprises: the dough feeding component comprises a hopper, a cutter arranged below the hopper and a roller type feeding machine connected with the cutter, and dough falling from the hopper is cut by the cutter and conveyed by the roller type feeding machine to form strip-shaped dough; a feeding conveyor, the input end of which is arranged below the output end of the dough feeding part; a pair of weighing and cutting members engaged with the output end of the feed conveyor.

Description

A system of processing for dough

Technical Field

The utility model relates to a food processing field, in particular to a system of processing for dough.

Background

When bread and cakes are made, a dough dividing and rounding machine is often used for assisting to divide the dough into proper weight and round the dough, so that the purposes of saving labor and improving quality and efficiency are achieved.

The existing dough dividing and rounding machine is divided into semi-automatic and full-automatic, wherein the full-automatic dough dividing machine can work efficiently and is suitable for modern food production operation.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a system of processing for dough can cut apart the rounding operation with the dough by high efficiency, adapts to the mass production of mill.

In order to achieve the above purpose, the utility model discloses a realize through following technical scheme:

a system for processing dough, comprising: the cutting device and the rounding device are connected with the output end of the cutting device; wherein the dividing means comprises:

the dough feeding component comprises a hopper, a cutter arranged below the hopper and a roller type feeding machine connected with the cutter, and dough falling from the hopper is cut by the cutter and conveyed by the roller type feeding machine to form strip-shaped dough;

a feeding conveyor, the input end of which is arranged below the output end of the dough feeding part;

a pair of weighing and cutting members engaged with the output end of the feed conveyor.

Each of said weighing and cutting elements comprises:

an upstream conveyor, a downstream conveyor disposed downstream of the upstream conveyor, and a cutter disposed upstream of the upstream conveyor; the cutting member cuts the strip-shaped dough to obtain a first cut dough.

The upstream conveyor is provided with a first weighing sensor and a first position sensor, the first weighing sensor is used for measuring the weight of the strip-shaped dough, and the first position sensor is used for detecting whether the strip-shaped dough reaches the output of the upstream conveyor or not.

The downstream conveyor is provided with a second weighing sensor for measuring the weight of the strip-shaped dough and the first cut dough and a second position sensor for detecting whether the first cut dough reaches the output of the downstream conveyor.

The cutting piece is provided with a blade.

The rounding device comprises a rack, a turntable which is gradually enlarged from top to bottom is arranged above the rack, a track support is arranged on the periphery of the turntable, a rounding track which spirally rises is arranged on the track support, a face ball outlet is arranged at the upper end of the rounding track, and the lower end of the rounding track is connected with the output end of the dividing device.

Compared with the prior art, the utility model, have following advantage:

1. the length of the weighing, cutting and aligning system can be shortened and the plurality of cut doughs are prevented from adhering to each other to be integrated.

2. The dough can be efficiently divided and rounded, and the method is suitable for mass production in factories.

Drawings

FIG. 1 is a block diagram of a cutting device for a dough processing system of the present invention;

FIG. 2 is a top view of the singulation apparatus;

fig. 3 is a schematic structural diagram of the rounding device.

Detailed Description

The present invention will be further described by the following detailed description of a preferred embodiment thereof, taken in conjunction with the accompanying drawings.

A system for processing dough, comprising: the cutting device and the rounding device are connected with the output end of the cutting device; referring to fig. 1 and 2, the segmenting device comprises: the dough feeding device comprises a dough feeding part 10, a feeding conveyor 14 and a pair of weighing and cutting parts, wherein the dough feeding part 10 comprises a hopper 10a, a cutter 10c arranged below the hopper and a roller type feeder 10d connected with the cutter, and dough F falling from the hopper 10a is cut by the cutter 10c and conveyed by the roller type feeder to form strip-shaped dough F0; the input end of the feeding conveyor 14 is arranged at the output end of the dough feeding part 10; a pair of weighted cutting members engage the output end of the feed conveyor 14.

Specifically, the dough feeding part 10 has a hopper 10a, an opening 10b provided at a lower portion of the hopper 10a, a cutter 10c opens and closes the opening 10b and cuts the dough F falling through the opening 10b by weight, and a roll feeder 10d forms the cut dough F into a belt-like dough F0 under a small stress. The strip-shaped dough F0 is fed onto the conveyor 14.

Each of said weighing and cutting elements comprises: an upstream conveyor, a downstream conveyor disposed downstream of the upstream conveyor, and a cutter disposed upstream of the upstream conveyor; the cutting member cuts the strip-shaped dough F0 to obtain a first cut dough F1.

Specifically, a first weighing and cutting unit 20a and a second weighing and cutting unit 20b may be included, the first weighing and cutting unit 20a having a weighing function and a shorter stroke of an upstream conveyor 22a, a weighing function and a longer stroke of a downstream conveyor 24a, and a cutting member 26a disposed near and upstream of the upstream conveyor 22 a. The upstream conveyor 22a measures the weight of the strip-shaped dough F0 to generate a cutting signal for cutting the strip-shaped dough F0 so that the cut dough has a predetermined weight. The downstream conveyor 24a has a check weighing function of measuring the first cut dough F1. The downstream conveyor 24a also has a function of measuring the weight of the strip-like dough F0 when the predetermined weight is heavier so that the length of the first cut dough F1 is longer than the length of the upstream conveyor 22 a. Cutter 26a has a blade 28a which operates in the manner of a cutter.

Similarly, the second weighing and cutting unit 20b has an upstream conveyor 22b having a weighing function and a short stroke, a downstream conveyor 24b having a weighing function and a long stroke, and a cutting member 26b disposed near and upstream of the upstream conveyor 22 b. The upstream conveyor 22b measures the weight of the strip-shaped dough F0 to generate a cutting signal for cutting the strip-shaped dough F0 so that the cut dough has a predetermined weight. The downstream conveyor 24b has a check weighing function of measuring the first cut dough F1. The downstream conveyor 24b also has a function of measuring the weight of the strip-like dough F0 when the predetermined weight is heavy so that the length of the cut dough F2 is longer than that of the upstream conveyor 22 b. Cutter 26b has a blade 28b that operates in the manner of a cutter.

The upstream conveyor is provided with a first weighing sensor and a first position sensor, the first weighing sensor is used for measuring the weight of the first cut dough, and the first position sensor is used for detecting whether the first cut dough reaches the output of the upstream conveyor or not. The downstream conveyor is provided with a second weighing sensor and a second position sensor, the second weighing sensor is used for measuring the weight of the second cut dough and the first cut dough, and the second position sensor is used for detecting whether the second cut dough reaches the output of the downstream conveyor or not.

Specifically, the upstream conveyor 22a has a first weighing sensor 30a, and the upstream conveyor 22b has a first weighing sensor 30b, which measures the weight of the strip-like dough F0; and a first position sensor 32a and a first position sensor 32b that detect whether the dough F1 reaches the output of the upstream conveyor 22a and the upstream conveyor 22 b. The

upstream conveyors

22a, 22b can be switched between low-speed operation and high-speed operation.

The downstream conveyor 24a has a second load cell 34a, the downstream conveyor 24b has a second load cell 34b that measures the weight of the cut first divided dough F1 and the strip-shaped dough F0, and a second position sensor 36a and a second position sensor 36b that detect whether the cut first divided dough F1 reaches the output downstream conveyor 24a, the downstream conveyor 24 b. The

downstream conveyors

24a, 24b can be switched between low speed operation and high speed operation.

The dough processing system further includes an output unit 6 having an in-feed conveyor 40, and a V-belt circular conveyor 42, the in-feed conveyor 40 conveying dough F2 discharged from the

downstream conveyors

24a, 24b, the V-belt circular conveyor 42 extending perpendicularly to the in-feed conveyor 40.

The system further comprises a control unit 44, which controls the above-mentioned components.

As shown in fig. 3, the rounding device includes a frame 71, a turntable gradually increasing from top to bottom is arranged above the frame 71, a track support is arranged on the periphery of the turntable, a spirally rising rounding rail is arranged on the track support, a face ball outlet is arranged at the upper end of the rounding rail, and the lower end of the rounding rail is connected with the output end of the dividing device.

The rounding device comprises a frame 71, a circular table type rotating disc 72 which is gradually enlarged from top to bottom is arranged above the frame 71, a track support 73 is arranged on the periphery of the rotating disc 72, a rounding track 74 which spirally rises is arranged on the track support 73, and a sphere outlet 75 is arranged at the upper end of the rounding track 74. The dividing device divides the ground dough F2 to fall on the below of rounding rail 74, along with the rotation of carousel 72, drives the dough and rolls in rounding rail 74 to shift up along rounding rail 74, move to the top of rounding rail 74 and pass through the roll-off of face ball export 75, at the removal in-process, rub the dough when rounding the dough, increase the gluten degree, improved the quality of product, work efficiency improves greatly moreover.

The scratches 76 are formed on the side of the rotary plate 72 along the generatrix direction, so that the friction force between the dough and the rotary plate is further increased, and the rounding and kneading effects are better.

The rail bracket 73 above the rounding rail 74 is provided with a dry flour hopper 77, dry flour is added at any time in the dough rounding process, and the adhesion of the dough with the rounding rail and the rotating disc is avoided.

While the present invention has been described in detail with reference to the preferred embodiments thereof, it should be understood that the above description should not be taken as limiting the present invention. Numerous modifications and alterations to the present invention will become apparent to those skilled in the art upon reading the foregoing description. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims

1. A system for processing dough, comprising: the cutting device and the rounding device are connected with the output end of the cutting device; wherein the dividing means comprises:

2. The dough processing system of claim 1, wherein each of said weighing and cutting units comprises:

3. The dough processing system of claim 2, wherein said upstream conveyor is provided with a first load cell for measuring the weight of the strip of dough and a first position sensor for detecting whether the strip of dough reaches the output of the upstream conveyor.

4. The dough processing system of claim 3, wherein said downstream conveyor is provided with a second load cell for measuring the weight of the strip-like dough and the first cut dough and a second position sensor for detecting whether the first cut dough reaches the output of the downstream conveyor.

5. The dough processing system of claim 2, wherein said cutting member is provided with a blade.

6. The dough processing system of claim 1, wherein the rounding device comprises a frame, a turntable gradually increasing from top to bottom is arranged above the frame, a track support is arranged on the periphery of the turntable, a spirally rising rounding track is arranged on the track support, a dough outlet is arranged at the upper end of the rounding track, and the lower end of the rounding track is connected with the output end of the dividing device.