CN211322804U - Full-automatic material device that spills of biscuit production - Google Patents

Abstract

The utility model discloses a full-automatic material spreading device for biscuit production, which comprises a frame and a proportioning bin arranged on the frame; the first conveying mesh belt is positioned below the proportioning bin; the first motor is arranged on the rack; the incoming material conveying belt is positioned below the first conveying net belt; a second conveyer mesh belt positioned below the incoming conveyer belt; the second motor is arranged on the rack; a discharge conveyor belt located below the second conveyor belt; a roller press disposed directly above the outfeed conveyor belt; a third motor disposed on the frame; the collecting hopper is arranged below the second conveying net belt; the ingredients are uniformly scattered on biscuit blanks through the latticed leakage holes of the first conveying mesh belt and are compacted on the roller compactor, so that the good taste and mouthfeel of the biscuits are ensured; by utilizing the latticed leakage holes and the collection hopper of the second conveying mesh belt, redundant ingredients are recovered, and raw materials are saved; the device has realized the automation of spilling the material process, uses manpower sparingly.

Description

Full-automatic material device that spills of biscuit production

Technical Field

The utility model relates to biscuit equipment production field, concretely relates to full-automatic material device that spills of biscuit production.

Background

The modern biscuit industry began in the uk of all countries of the world at 19 th century due to the advanced sailing technology, and bread, a bread-biscuit with very low moisture content, was invented in long-term sailing because bread contains high moisture (35% -40%) and is not suitable as a reserve food.

During production and processing, ingredients such as sesame or five kernels are usually required to be scattered on the surface of the biscuit, and the ingredients are required to be uniformly scattered, so that the taste and the mouthfeel are facilitated, and unnecessary waste of the ingredients can be effectively avoided. However, the conventional method is that in a production line, a formed semi-finished product is conveyed to a material scattering worker through a conveying belt, and the surface of the semi-finished product is scattered manually, so that the powder scattering of the biscuit is not uniform, the powdery seasonings are not firmly bonded, the taste of the biscuit is poor, the seasonings are easy to fall off due to insufficient adhesion in later production, the taste of the biscuit is insufficient, the auxiliary materials are easily wasted due to uneven manual scattering, and the good development of enterprises is not facilitated.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing a spill material even, biscuit condiment bonds firm, the full-automatic material device that spills of biscuit production of practicing thrift raw and other materials.

In order to solve the technical problem, the technical scheme of the utility model is that: the utility model provides a full-automatic material device that spills of biscuit production which characterized in that: comprises a frame, a batching bin arranged on the frame and used for falling batching; the first conveying mesh belt is arranged on the rack and is positioned below the proportioning bin; the first motor is arranged on the rack and is in transmission connection with the first conveying mesh belt; the incoming material conveying belt is arranged below the first conveying net belt and used for conveying biscuit cakes into the first conveying net belt; the second conveying mesh belt is arranged on the rack and is positioned below the incoming material conveying belt; the second motor is arranged on the rack and is used for being in transmission connection with the incoming material conveying belt and the second conveying net belt; the discharging conveyor belt is arranged below the second conveying mesh belt and used for conveying biscuit cakes out; the roller press is arranged right above the discharging conveyor belt and used for compacting ingredients on biscuit cakes; the third motor is arranged on the rack and is used for being in transmission connection with the discharge conveyor belt and the roller; and the collecting hopper is arranged below the second conveying mesh belt and used for collecting and recovering ingredients.

Preferably, the proportioning bin is fixedly provided with a vibration motor, and an electric valve is arranged at the outlet of the proportioning bin. The vibration motor makes the ingredients in the ingredient bin not block up and fall down evenly, and the electric valve controls the ingredients to fall down. The vibration motor makes the ingredients in the ingredient bin not block up and fall down evenly, and the electric valve controls the ingredients to fall down.

Preferably, the first conveying net belt is wound on the first driving conveying roller and the first driven conveying roller; one end of the first driving conveying roller is fixedly provided with a first driven gear; the second conveying mesh belt is wound on the second driving conveying roller and the second driven conveying roller; the second driving conveying roller wheel is consistent with the first driving conveying roller wheel in structure;

preferably, the incoming material conveying belt is wound on the first driving conveying roller and the first driven conveying roller; one end of the first driving transmission roller is fixedly provided with a second driven gear; the discharging conveyor belt is wound on the second driving conveying roller and the second driven conveying roller; the second driving conveying roller wheel is consistent with the first driving conveying roller wheel in structure.

Preferably, a transmission shaft of the first motor is divided into a driving end and a driven end, the driving end is fixedly provided with a first driving gear, and the driven end is fixedly provided with a second driving gear; the structures of the second motor and the third motor are consistent with the structure of the first motor.

Preferably, a rolling shaft penetrates through the middle of the rolling device, and a third driven gear is fixedly mounted at one end of the rolling shaft.

Preferably, a first driving gear of the driving end of the first motor is in transmission connection with a first driven gear of the first driving conveying roller through a chain; the driving end of the second motor is in transmission connection with the first driving transmission roller wheel through the matching of a gear and a chain; the driven end of the second motor is in transmission connection with the second driving conveying roller wheel through the matching of the gear and the chain; the driving end of the third motor is in transmission connection with the second driving transmission roller through the matching of a gear and a chain, and the driven end of the third motor is in transmission connection with the rolling shaft through the matching of the gear and the chain.

Preferably, the first conveying net belt and the second conveying net belt are in a grid shape, and the width and the length of the grid are smaller than those of the biscuits. Ingredients can fall from the first conveying mesh belt and the second conveying mesh belt, and biscuits cannot fall.

The utility model discloses technical effect mainly embodies: the first conveying mesh belt and the second conveying mesh belt are provided with latticed leak holes, ingredients falling from the ingredient bins are uniformly scattered on biscuit blanks on the second conveying mesh belt through the leak holes by the first conveying mesh belt in motion, and the ingredients on the biscuit blanks with the ingredients are compacted by the roller compactor, so that the taste and the mouthfeel of biscuits are ensured; in addition, redundant ingredients fall into the collecting hopper through the leakage holes of the second conveying mesh belt to be recycled, so that raw materials are saved; the device has realized the automation of spilling the material process, has saved the manpower.

Drawings

Fig. 1 is a schematic structural view of the present invention;

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

FIG. 3 is a structural view of a first active transport roller;

FIG. 4 is a structural view of a first driving transmission roller

FIG. 5 is a block diagram of a first motor;

FIG. 6 is a block diagram of a roller press;

Detailed Description

The following detailed description of the embodiments of the present invention is made with reference to the accompanying drawings, so that the technical solution of the present invention can be more easily understood and grasped.

In the present embodiment, it should be understood that the terms "middle", "upper", "lower", "top", "right", "left", "above", "back", "middle", 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 describing the present invention, and do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the present embodiment, if the connection or fixing manner between the components is not specifically described, the connection or fixing manner may be a bolt fixing manner, a pin connecting manner, or the like, which is commonly used in the prior art, and therefore, details thereof are not described in the present embodiment.

A full-automatic material spreading device for biscuit production is shown in figure 1 and comprises a frame 1 and a batching bin 2 which is arranged on the frame 1 and used for falling batching; the first conveying mesh belt 3 is arranged on the frame 1 and is positioned below the proportioning bins 2; the first motor 4 is arranged on the frame 1 and is used for being in transmission connection with the first conveying mesh belt 1; the incoming material conveying belt 5 is arranged below the first conveying mesh belt 3 and used for conveying biscuit cakes into the incoming material conveying belt; a second conveying mesh belt 6 arranged on the frame 1 and positioned below the incoming material conveying belt 5; the second motor 7 is arranged on the frame 1 and is used for being in transmission connection with the incoming material conveying belt 5 and the second conveying net belt 6; the discharging conveyor belt 8 is arranged below the second conveying mesh belt 6 and used for conveying biscuit cakes out; a roller press 9 which is arranged right above the discharging conveyor belt 8 and is used for compacting ingredients on biscuit cakes; a third motor 10 arranged on the frame 1 and used for being in transmission connection with the discharging conveyor belt 8 and the roller 9; and the collecting hopper 11 is arranged below the second conveying net belt 2 and used for collecting and recovering ingredients.

Proportioning bins 2 fixed mounting has vibrating motor 21, proportioning bins 2 export is installed motorised valve 22. The vibration motor 21 enables the ingredients in the ingredient bin to fall uniformly without being blocked, and the electric valve 22 controls the ingredients to fall.

As shown in fig. 1 and 3, the first conveyer belt 3 is wound around a first driving conveyer roller 31 and a first driven conveyer roller 32; one end of the first driving conveying roller 31 is fixedly provided with a first driven gear 311; the second conveying net belt 6 is wound on the second driving conveying roller 61 and the second driven conveying roller 62; the second driving conveying roller 61 and the first driving conveying roller 31 have the same structure;

as shown in fig. 1 and 4, the feeding belt 5 is wound around a first driving conveyor roller 51 and a first driven conveyor roller 52; a second driven gear 511 is fixedly arranged at one end of the first driving transmission roller 51; the discharging conveyor belt 8 is wound on a second driving conveying roller 81 and a second driven conveying roller 82; the second active transport roller is identical in construction to 82 the first active transport roller 51.

As shown in fig. 5, a transmission shaft of the first motor 4 is divided into a driving end 41 and a driven end 42, the driving end 41 is fixedly provided with a first driving gear 411, and the driven end 42 is fixedly provided with a second driving gear 421; the second motor 7 is consistent with the first motor 4 in structure, and the third motor 10 is consistent with the first motor in structure.

As shown in fig. 6, a rolling shaft 91 penetrates through the middle of the rolling device 9, and a third driven gear 911 is fixedly mounted at one end of the rolling shaft 91.

As shown in fig. 1, the first driving gear 411 of the driving end 41 of the first motor 4 is in transmission connection with the first driven gear 311 of the first driving conveying roller 31 through a chain; the driving end of the second motor 7 is in transmission connection with the first driving transmission roller 51 through the matching of a gear and a chain; the driven end of the second motor 7 is in transmission connection with the second driving conveying roller 61 through the matching of a gear and a chain; the driving end of the third motor 10 is in transmission connection with the second driving transmission roller 81 through the matching of a gear and a chain, and the driven end of the third motor 10 is in transmission connection with the rolling shaft 91 through the matching of a gear and a chain.

As shown in figure 2, the first conveying mesh belt 3 and the second conveying mesh belt 6 are provided with grid-shaped leakage holes 32, the width and the length of the leakage holes are smaller than those of biscuits, ingredients can fall from the first conveying mesh belt and the second conveying mesh belt, and the biscuits cannot fall.

The working principle is as follows: biscuit cake embryo is sent into through supplied materials conveyer belt 5, and when biscuit cake embryo arrived second conveying mesh belt 6, the batching that comes out from the proportioning bins was on the first conveying mesh belt 3 in the motion, evenly spills the surface of biscuit cake embryo through the small opening, and unnecessary batching has fallen collection fill 11 through the small opening of second conveying mesh belt 6, and when the biscuit cake embryo that has the batching on the surface arrived discharge conveyor 8, the batching of roller 9 on to biscuit cake embryo carries out the compaction.

The utility model discloses technical effect mainly embodies: the first conveying mesh belt and the second conveying mesh belt are provided with latticed leak holes, ingredients falling from the ingredient bins are uniformly scattered on biscuit blanks on the second conveying mesh belt through the leak holes by the first conveying mesh belt in motion, and the ingredients on the biscuit blanks with the ingredients are compacted by the roller compactor, so that the taste and the mouthfeel of biscuits are ensured; in addition, redundant ingredients fall into the collecting hopper through the leakage holes of the second conveying mesh belt to be recycled, so that raw materials are saved; the device has realized the automation of spilling the material process, has saved the manpower.

Of course, the above is only a typical example of the present invention, and besides, the present invention can also have other various specific embodiments, and all technical solutions adopting equivalent replacement or equivalent transformation are all within the scope of the present invention as claimed.

Claims (8)

1. The utility model provides a full-automatic material device that spills of biscuit production which characterized in that: comprises a frame, a batching bin arranged on the frame and used for falling batching; the first conveying mesh belt is arranged on the rack and positioned below the proportioning bin; the first motor is arranged on the rack and is used for being in transmission connection with the first conveying mesh belt; the incoming material conveying belt is arranged below the first conveying net belt and used for conveying biscuit cakes into the first conveying net belt; the second conveying mesh belt is arranged on the rack and is positioned below the incoming material conveying belt; the second motor is arranged on the rack and is used for being in transmission connection with the incoming material conveying belt and the second conveying net belt; the discharging conveyor belt is arranged below the second conveying mesh belt and used for conveying biscuit cakes out; the roller press is arranged right above the discharging conveyor belt and used for compacting ingredients on biscuit cakes; the third motor is arranged on the rack and is used for being in transmission connection with the discharge conveyor belt and the roller; and the collecting hopper is arranged below the second conveying mesh belt and used for collecting and recovering ingredients.

2. A full-automatic biscuit production spreading device as claimed in claim 1, characterized in that: proportioning bins fixed mounting has vibrating motor, the motorised valve is installed in the proportioning bins export.

3. A full-automatic biscuit production spreading device as claimed in claim 1, characterized in that: the first conveying mesh belt is wound on the first driving conveying roller and the first driven conveying roller; one end of the first driving conveying roller is fixedly provided with a first driven gear; the second conveying mesh belt is wound on the second driving conveying roller and the second driven conveying roller; the second driving conveying roller wheel is consistent with the first driving conveying roller wheel in structure.

4. A full-automatic biscuit production spreading device as claimed in claim 1, characterized in that: the feeding conveyor belt is wound on the first driving conveying roller and the first driven conveying roller; one end of the first driving transmission roller is fixedly provided with a second driven gear; the discharging conveyor belt is wound on the second driving conveying roller and the second driven conveying roller; the second driving conveying roller wheel is consistent with the first driving conveying roller wheel in structure.

5. A full-automatic biscuit production spreading device as claimed in claim 1, characterized in that: the transmission shaft of the first motor is divided into a driving end and a driven end, the driving end is fixedly provided with a first driving gear, and the driven end is fixedly provided with a second driving gear; the structures of the second motor and the third motor are consistent with the structure of the first motor.

6. A full-automatic biscuit production spreading device as claimed in claim 1, characterized in that: a rolling shaft penetrates through the middle of the rolling device, and a third driven gear is fixedly mounted at one end of the rolling shaft.

7. A biscuit production full-automatic spilling device according to claim 5, characterized in that: a first driving gear of the driving end of the first motor is in transmission connection with a first driven gear of the first driving conveying roller through a chain; the driving end of the second motor is in transmission connection with the first driving transmission roller wheel through the matching of a gear and a chain; the driven end of the second motor is in transmission connection with the second driving conveying roller wheel through the matching of the gear and the chain; the driving end of the third motor is in transmission connection with the second driving transmission roller through the matching of a gear and a chain, and the driven end of the third motor is in transmission connection with the rolling shaft through the matching of the gear and the chain.

8. A full-automatic biscuit production spreading device as claimed in claim 1, characterized in that: the first conveying mesh belt and the second conveying mesh belt are provided with latticed leakage holes, and the width and the length of the leakage holes are smaller than those of biscuits.

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