CN218073251U - Continuous automatic material arranging, slicing and arranging machine - Google Patents

Abstract

The utility model discloses a continuous automatic material arranging, slicing and sheet arranging machine, which comprises a first conveying belt, a second conveying belt, a pushing mechanism, a slicing mechanism and a sheet arranging mechanism; the second conveyer belt sets up perpendicularly with the direction of delivery of first conveyer belt, the input of second conveyer belt meets with the output of first conveyer belt, vertical a plurality of division boards that set up on the first conveyer belt, first conveyer belt top is equipped with the length direction reciprocating sliding's along the division board push pedal, push mechanism, the direction of delivery of slicing machine structure and pendulum piece mechanism along the second conveyer belt sets gradually, push mechanism sets up in the top of second conveyer belt and along the direction of delivery reciprocating motion of second conveyer belt between slicing machine structure and first conveyer belt. The utility model discloses an automatic reason material of steamed bun piece, section and the automated production who puts the piece use manpower sparingly, have improved production efficiency, have ensured the health and the security of food.

Description

Continuous automatic material arranging, slicing and arranging machine

Technical Field

The utility model relates to a food processing equipment technical field, in particular to automatic reason material section pendulum mascerating machine in succession.

Background

The steamed bread slice is a popular leisure food which is prepared by taking flour, yeast and water as main raw materials and taking milk powder, salt, sugar, palm oil, eggs and the like as auxiliary materials and carrying out fermentation, steaming and baking (frying), and has rich nutrition, crisp and fragrant mouthfeel, attractive color and luster, unique flavor and benefit for both the old and the young.

In the processing process of the steamed bread slices, the steamed semi-finished products need to be sliced, arranged and dried, the existing steamed bread slice slicing and arranging production is that workers put the steamed semi-finished products on a conveyor belt orderly, the semi-finished products are sequentially and transversely placed on the conveyor belt and conveyed to a cutter for slicing, the cut piled steamed bread slices need to be manually rotated by 90 degrees before entering the slice arranging machine and then are carried and arranged on the conveyor belt of the slice arranging machine, the piled steamed bread slices are arranged along the conveying direction of the conveyor belt of the slice arranging machine, and the piled steamed bread slices are scattered by the slice arranging machine and then are conveyed to an oven in a single-layer uniform manner. In this kind of semi-automatization's production mode, the steamed bread piece after cutting need carry through the manual work and rotate 90 degrees after the pile to put things in good order to put in good order on the mascerating machine when getting into mascerating machine, can not carry out continuous production, and production efficiency is low, and the manual work participates in the steamed bread piece insanitation that leads to producing and the steamed bread piece that becomes the pile easily in a confused state of mind or damages moreover.

SUMMERY OF THE UTILITY MODEL

In view of the above problems, the present invention provides a continuous automatic material arranging, slicing and arranging machine, which solves the problems of the prior semi-automatic production of steamed bread slices, such as the incapability of continuous production, low production efficiency and unsanitary production caused by manual connection, and the easy disorder or damage of the cut piled steamed bread slices.

The utility model discloses a realize like this:

a continuous automatic material arranging, slicing and arranging machine comprises a first conveying belt, a second conveying belt, a pushing mechanism, a slicing mechanism and a arranging mechanism; the second conveyer belt sets up perpendicularly with the direction of delivery of first conveyer belt, the input of second conveyer belt meets with the output of first conveyer belt, set up a plurality of division boards on the first conveyer belt, the length direction of division board is perpendicular with the direction of delivery of first conveyer belt, first conveyer belt top is equipped with the reciprocating sliding's of length direction along the division board push pedal, push mechanism, slice mechanism and pendulum piece mechanism set gradually along the direction of delivery of second conveyer belt, push mechanism sets up in the top of second conveyer belt and along the direction of delivery reciprocating motion of second conveyer belt between slice mechanism and first conveyer belt.

Furthermore, a plurality of division boards set up along the direction of delivery equipartition of first conveyer belt.

Furthermore, a plurality of grid plates are fixedly arranged above the second conveying belt, and the grid plates are arranged corresponding to the partition plates.

Further, push mechanism includes balladeur train and propelling movement frame, and the balladeur train slides and sets up in the top of second conveyer belt, and the slip direction of balladeur train is parallel with the direction of delivery of second conveyer belt, and the propelling movement frame rotates with the balladeur train to be connected.

Furthermore, the device also comprises a first conveying mechanism arranged along the conveying direction of the first conveying belt, the first conveying mechanism comprises an upper conveying belt and a lower conveying belt which are oppositely arranged from top to bottom, and the output end of the lower conveying belt is connected with the input end of the first conveying belt.

Further, the slicing mechanism comprises a cutter which slides up and down along the vertical direction.

Furthermore, the device also comprises a sorting mechanism, and the output end of the sorting mechanism is connected with the input end of the first conveying mechanism.

Furthermore, the edge material removing mechanism is further included and located between the slicing mechanism and the piece swinging mechanism, the edge material removing mechanism comprises a telescopic conveying belt and a third conveying belt, the conveying direction of the telescopic conveying belt is parallel to the conveying direction of the second conveying belt, and the conveying direction of the third conveying belt is perpendicular to the conveying direction of the telescopic conveying belt.

The utility model has the advantages that:

the utility model discloses a continuous automatic reason material section pendulum mascerating machine, the common cooperation of mechanism and pendulum piece mechanism is rejected through the first conveyer belt, second conveyer belt, push pedal, push mechanism, the slicer mechanism, rim charge that set up, accomplishes the automatic reason material of steamed bun piece, section and the automatic continuous production who pendulum the piece. The transversely placed semi-finished products are uniformly placed on the first conveying belt after being separated and conveyed by the first conveying belt, and are pushed to the second conveying belt vertically arranged with the first conveying belt in order through the sliding push plate, and manual carrying and stacking are not needed between the two vertical conveying belts, so that labor is saved; the pushing mechanism pushes the semi-finished product on the second conveying belt to the slicing mechanism to be sliced, the uneven-thickness rim charge at the head and the tail of the cut semi-finished product is automatically removed through the rim charge removing mechanism, and the cut even-thickness steamed bread slices are arranged and arranged through the slice arranging mechanism and are conveyed to the oven to be baked. Need not artifical transport between each process, and the sliced bun piece is directly carried to pendulum piece mechanism, can effectively avoid the condition that the sliced whole bun piece that becomes that often appears in the current sliced bun piece production process is disturbed or damaged in artifical handling, uses manpower sparingly, has improved production efficiency, has ensured the health and the security of food.

Additional advantages, objects, and features of the invention 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 invention.

Drawings

Fig. 1 is a top view of the present invention;

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

fig. 3 is a left side view of the present invention.

Description of reference numerals:

1. a first conveyor belt; 11. a partition plate; 12. pushing the plate; 2. a second conveyor belt; 21. a multi-well plate; 3. a pushing mechanism; 31. a carriage; 32. a pushing frame; 33. a cylinder; 4. a slicing mechanism; 41. a cutter; 5. a sheet swinging mechanism; 6. a first conveying mechanism; 61. an upper conveying belt; 62. a lower conveyor belt; 7. a sorting and sequencing mechanism; 8. semi-finished products; 9. a rim charge removing mechanism; 91. a telescopic conveyor belt; 92. a third conveyor belt; d1, a first conveying direction; d2, a second conveying direction.

Detailed Description

The technical solution in the embodiment of the present invention is clearly and completely described below with reference to the drawings in the embodiment of the present invention. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be implemented in other ways different from the specific details set forth herein, and one skilled in the art may similarly generalize the present invention without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

As shown in fig. 1-3, the continuous automatic material arranging, slicing and arranging machine of the present invention comprises a first conveyor belt 1, a second conveyor belt 2, a pushing mechanism 3, a slicing mechanism 4 and a arranging mechanism 5. The first conveyor belt 1 and the second conveyor belt 2 are both driven by a motor, which is a prior art and is not described herein again. The second conveyer belt 2 sets up with the direction of delivery of first conveyer belt 1 is perpendicular, and the input of second conveyer belt 2 meets with the output of first conveyer belt 1. As shown in fig. 1, the conveying direction of the first conveyor belt 1 is a first conveying direction D1, the conveying direction of the second conveyor belt 2 is a second conveying direction D2, and the first conveying direction D1 and the second conveying direction D2 are perpendicular to each other.

Set up a plurality of separators 11 on the first conveyer belt 1, be used for placing through the adhesion between the adjacent separator 11 steamed semi-manufactured goods 8 and the prevention adjacent surface fabric between the division. The length direction of the partition plates 11 is perpendicular to the conveying direction of the first conveying belt 1, the partition plates 11 are uniformly distributed along the conveying direction of the first conveying belt 1, a partition area for placing the semi-finished product 8 is formed between every two adjacent partition plates 11, the width of the partition area is slightly larger than that of the semi-finished product 8, and the distance between every two adjacent partition plates 11 is set as a station. One side of the input end of the first conveyor belt 1 is provided with a photoelectric sensor (not shown in the figure), the photoelectric sensor is used for detecting the semi-finished product 8 conveyed on the first conveyor belt 1, and when the photoelectric sensor detects that the semi-finished product 8 exists, the first conveyor belt 1 moves forward by one station. When the first conveyer belt 1 moves forward by the preset number of stations, the first conveyer belt 1 stops moving. A push plate 12 which slides back and forth along the length direction of the partition plate 11 is arranged above the first conveying belt 1, and the push plate 12 is used for pushing the plurality of semi-finished products 8 in the partition plate 11 to move left and right along the length direction of the partition plate 11. In this embodiment, the reciprocating movement of the pushing plate 12 can be realized by driving the cylinder 33, or other driving manners can be adopted, as long as the pushing plate 12 can move left and right, which is not described herein.

A plurality of multi-grid plates 21 are fixedly arranged above the second conveying belt 2, the multi-grid plates 21 are arranged corresponding to the partition plates 11, and the distance between every two adjacent multi-grid plates 21 is equal to the distance between every two adjacent partition plates 11. Semi-manufactured goods 8 between first conveyer belt 1 top separation board 11 promotes through push pedal 12 between its many check boards 21 to on the second conveyer belt 2 to can remove along second conveyer belt 2, and the effect of direction is played in the setting of a plurality of many check boards 21, prevents the dislocation removal that semi-manufactured goods 8 appears in second conveyer belt 2 transportation, makes semi-manufactured goods 8 neatly arranged on second conveyer belt 2.

The pushing mechanism 3, the slicing mechanism 4 and the swing mechanism 5 are sequentially arranged along the conveying direction of the second conveying belt 2, and the pushing mechanism 3 is arranged above the second conveying belt 2 and reciprocates between the slicing mechanism 4 and the first conveying belt 1 along the conveying direction of the second conveying belt 2. The pushing mechanism 3 comprises a sliding frame 31 and a pushing frame 32, the sliding frame 31 is arranged above the second conveying belt 2 in a sliding mode, the sliding direction of the sliding frame 31 is parallel to the conveying direction of the second conveying belt 2, and the pushing frame 32 is connected with the sliding frame 31 in a rotating mode. In this embodiment, the carriage 31 is driven by a driving motor (not shown) to move left and right along the conveying direction of the second conveyor belt 2, one end of the air cylinder 33 is fixed on the carriage 31, the other end is connected with the pushing frame 32, and the pushing frame 32 is rotatably connected with the carriage 31 under the driving of the air cylinder 33. As shown in fig. 2, the broken line is a trajectory in which the carriage 31 moves to the cutter 41 in the conveying direction of the second conveyor belt 2 and the pushing frame 32 rotates downward by the driving of the air cylinder 33. The pushing mechanism 3 is used for pushing the semi-finished product 8 to the slicing mechanism 4 and slicing the semi-finished product, when the pushing mechanism 3 acts, firstly the sliding frame 31 moves to a designated position along the conveying direction of the second conveying belt 2, then the pushing frame 32 is driven by the air cylinder 33 to rotate downwards and push the semi-finished product 8, the sliding frame 31 continues to move to the slicing mechanism 4 along the conveying direction of the second conveying belt 2, and the semi-finished product 8 is continuously pushed to the slicing mechanism 4 to be sliced.

The slicing mechanism 4 is used for slicing the semi-finished product 8 and comprises a cutter 41 which slides up and down along the vertical direction, and the cutter 41 moves up and down to slice the semi-finished product 8 uniformly. The sheet arranging mechanism 5 is used for dispersing the cut steamed bread sheets, and the steamed bread sheets are uniformly arranged in a single layer and conveyed into the oven through the conveying belt for baking. In this embodiment, the sheet arranging mechanism 5 can use an existing sheet arranging machine to arrange and convey the steamed bread sheets.

Still include the first conveying mechanism 6 that sets up along first conveyer belt 1 direction of delivery, first conveying mechanism 6 includes relative upper and lower conveyer belt 61 and the lower conveyer belt 62 that sets up, and the output of lower conveyer belt 62 meets with the input of first conveyer belt 1. The upper conveying belt 61 and the lower conveying belt 62 are both driven by a motor, and the upper conveying belt 61 and the lower conveying belt 62 synchronously rotate and jointly clamp and convey the semi-finished product 8. When the first conveyor 1 is in the stop state and the conveying of the semi-finished products 8 is not needed, the first conveyor stops and the semi-finished products 8 cannot pass through the upper conveyor 61 and the lower conveyor 62. When the semi-finished product 8 needs to be conveyed to the first conveying belt, the driving motor of the first conveying mechanism 6 is started, the semi-finished product 8 is conveyed under the clamping of the upper conveying belt 61 and the lower conveying belt 62, and the conveying stability is improved.

The automatic sorting device further comprises a sorting mechanism 7, and the output end of the sorting mechanism 7 is connected with the input end of the first conveying mechanism 6. In this embodiment, the sorting mechanism 7 may be any type of conveyor belt in the prior art, and the two sides of the conveyor belt are provided with baffles for pushing the semi-finished products 8. The semi-finished products 8 enter the sorting and sequencing mechanism 7, and are conveyed by the conveying belt and pushed by the baffle plate, so that the semi-finished products 8 move towards the center of the conveying belt, and further the semi-finished products 8 are distributed on the conveying belt in the middle and sequentially pass through the first conveying mechanism 6.

The automatic edge removing machine further comprises an edge removing mechanism 9, and the edge removing mechanism 9 is used for automatically removing head edges and tail edges which are uneven in thickness in the slicing process. The rim charge removing mechanism 9 is located between the slicing mechanism 4 and the sheet swinging mechanism 5, the rim charge removing mechanism 9 comprises a telescopic conveyor belt 91 and a third conveyor belt 92, the conveying direction of the telescopic conveyor belt 91 is parallel to the conveying direction of the second conveyor belt 2, and the conveying direction of the third conveyor belt 92 is perpendicular to the conveying direction of the telescopic conveyor belt 91. The third conveyor belt 92 is located below the cutter 41, and the telescopic end of the telescopic conveyor belt 91 is disposed near the cutter 41. When the cutter 41 cuts a first knife, the telescopic conveyor belt 91 contracts, the input end of the telescopic conveyor belt 91 is far away from the cutter 41, and the head rim charge cut by the first knife does not touch the input end of the telescopic conveyor belt 91 and freely falls onto the third conveyor belt 92 for conveying. When the cutter 41 performs the second knife cutting, the telescopic conveyor belt 91 is stretched and the input end of the telescopic conveyor belt is close to the cutter 41, the semi-finished product 8 steamed by the worker is sliced by the cutter 41, is toppled and falls to the input end of the telescopic conveyor belt 91, and is conveyed to the sheet swinging mechanism 5 through the telescopic conveyor belt 91 to swing the sheet. After the cutting knife 41 cuts according to the preset number, the telescopic conveyor belt 91 contracts again, the input end of the telescopic conveyor belt 91 is far away from the cutting knife 41, the tail edge material cut by the cutting knife 41 does not touch the input end of the telescopic conveyor belt 91, and the tail edge material freely falls onto the third conveyor belt 92 to be conveyed, so that the head edge material and the tail edge material are automatically removed.

When the continuous automatic material arranging, slicing and arranging machine of the utility model is used, a plurality of semi-finished products 8 are placed to the arranging and sequencing mechanism 7, and the arranging and sequencing mechanism 7 is started to carry to the first conveying mechanism 6 after preliminary sequencing; when the semi-finished product 8 passes through the input end of the first conveying mechanism 6, the first conveying mechanism 6 is started, the upper conveying belt 61 and the lower conveying belt 62 synchronously act, and the semi-finished product 8 is clamped and conveyed to the first conveying belt 1; when the semi-finished product 8 passes through the input end of the first conveying belt 1, and the photoelectric sensor detects the semi-finished product 8, starting the first conveying belt 1, sequentially and independently placing the semi-finished product 8 in a dividing area between adjacent dividing plates 11 on the first conveying belt 1 through a plurality of dividing plates 11 on the first conveying belt 1, uniformly distributing and arranging at intervals, when the first conveying belt 1 moves a preset number of work positions, namely the number of the semi-finished products 8 on the first conveying belt 1 reaches a preset value, the first conveying belt 1 stops, the push plate 12 acts to push all the semi-finished products 8 on the first conveying belt 1 out of the first conveying belt 1 and onto the second conveying belt 2 along the length direction of the dividing plates 11, and when the semi-finished product 8 moves towards the slicing mechanism 4 along the length direction of the multi-grid plate 21 and is completely separated from the first conveying belt 1, the push plate 12 reversely moves to an initial position, starting the first conveying belt 1, the photoelectric sensor continuously detects the semi-finished product 8, and the first conveying belt 1 continuously conveys the semi-finished product 8; meanwhile, a driving motor of the pushing mechanism 3 is started to drive the sliding frame 31 to move to a preset distance from the slicing mechanism 4, the air cylinder 33 is started to drive the pushing frame 32 to rotate downwards and push against the semi-finished product 8, the slicing mechanism 4 is started to enable the cutter 41 to move up and down and the sliding frame 31 to continue to move towards the left side, the semi-finished product 8 is pushed to move towards the cutter 41, when the cutter 41 performs first cutting, the telescopic conveying belt 91 of the rim charge eliminating mechanism 9 contracts, the head rim charge falls onto the third conveying belt 92, when the cutter 41 performs second cutting, the telescopic conveying belt 91 of the rim charge eliminating mechanism 9 extends, the slices fall onto the telescopic conveying belt 91 and are conveyed to the slice swinging mechanism 5, after the cutter 41 performs a preset number of slices, the telescopic conveying belt 91 of the rim charge eliminating mechanism 9 contracts again, and the tail rim charge falls onto the third conveying belt 92 and is conveyed, so that the head rim charge and the tail rim charge are automatically eliminated; the sliced bread slices with even thickness reach the slice arranging mechanism 5, the slice arranging mechanism 5 starts to disperse the sliced bread slices, so that the sliced bread slices are uniformly arranged on the conveying belt in a single layer and are conveyed to the oven for baking.

It is obvious that the described embodiments are only some of the embodiments of the present invention, and not all of them. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Claims (8)

1. A continuous automatic material arranging, slicing and arranging machine is characterized by comprising a first conveying belt (1), a second conveying belt (2), a pushing mechanism (3), a slicing mechanism (4) and a arranging mechanism (5); second conveyer belt (2) with the direction of conveyance of first conveyer belt (1) sets up perpendicularly, the input of second conveyer belt (2) with the output of first conveyer belt (1) meets, set up a plurality of division boards (11) on first conveyer belt (1), the length direction of division board (11) with the direction of conveyance of first conveyer belt (1) is perpendicular, first conveyer belt (1) top is equipped with the edge the length direction reciprocating sliding's of division board (11) push pedal (12), pushing mechanism (3) slicing mechanism (4) reach pendulum piece mechanism (5) are followed the direction of conveyance of second conveyer belt (2) sets gradually, pushing mechanism (3) set up the top of second conveyer belt (2), and be in slicing mechanism (4) and follow between first conveyer belt (1) the direction of conveyance reciprocating motion of second conveyer belt (2).

2. The continuous automatic tidying and slicing machine according to claim 1, characterized in that a plurality of the partition plates (11) are arranged uniformly along the conveying direction of the first conveyor belt (1).

3. The continuous automatic tidying and slicing machine as claimed in claim 1, wherein a plurality of grid plates (21) are fixedly arranged above the second conveyor belt (2), and the grid plates (21) are arranged corresponding to the partition plates (11).

4. The continuous automatic tidying and slicing machine according to claim 1, characterized in that the pushing mechanism (3) comprises a carriage (31) and a pushing frame (32), the carriage (31) is slidably disposed above the second conveyor belt (2), the sliding direction of the carriage (31) is parallel to the conveying direction of the second conveyor belt (2), and the pushing frame (32) is rotatably connected with the carriage (31).

5. The continuous automatic material arranging, slicing and arranging machine as claimed in claim 1, further comprising a first conveying mechanism (6) disposed along the conveying direction of the first conveying belt (1), wherein the first conveying mechanism (6) comprises an upper conveying belt (61) and a lower conveying belt (62) disposed opposite to each other, and an output end of the lower conveying belt (62) is connected to an input end of the first conveying belt (1).

6. The continuous automatic tidying and slicing machine according to claim 1, characterized in that the slicing mechanism (4) comprises a cutter (41) that slides up and down in the vertical direction.

7. The continuous automatic tidying and slicing machine according to claim 5, characterized in that, it further comprises a tidying and sequencing mechanism (7), the output end of the tidying and sequencing mechanism (7) is connected with the input end of the first conveying mechanism (6).

8. The continuous automatic material arranging, slicing and arranging machine according to claim 1, further comprising an edge material removing mechanism (9), wherein the edge material removing mechanism (9) is located between the slicing mechanism (4) and the slicing mechanism (5), the edge material removing mechanism (9) comprises a telescopic conveyor belt (91) and a third conveyor belt (92), a conveying direction of the telescopic conveyor belt (91) is parallel to a conveying direction of the second conveyor belt (2), and a conveying direction of the third conveyor belt (92) is perpendicular to the conveying direction of the telescopic conveyor belt (91).

Images