CN109373750B - Automatic feeding system for potato chip slicing and drying - Google Patents

Abstract

The invention discloses an automatic feeding potato chip slicing, drying and sieving system, which is characterized by comprising the following components: a plurality of slicing machines, a material conveying device, a feeding rail conveying device, a plurality of dryers, a sieving device, a ground rail and a plurality of motors; when the device is used, the material conveying device conveys the output materials of the slicing machine to the feeding track conveying device, the material conveying of all the dryers is realized through the control of the third belt, after the materials enter the dryers, the material returning device is started to dry the materials at the same time, the purpose of uniform drying is achieved by discharging the materials, the sieving device is started in the drying process, and the materials are sieved for each dryer respectively. The system has the advantages of maximally simplifying structure, simplifying equipment operation, fully and reasonably utilizing production time, improving production efficiency and reducing production cost.

Description

Automatic feeding system for potato chip slicing and drying

Technical Field

The invention relates to the technical field of potato chip slicing and drying, in particular to an automatic feeding system for potato chip slicing and drying.

Background

In the prior art, in potato chip production, after slicing is finished, the potato chips are manually transported to enter a drying process, so that the production efficiency is low, and the risk of food pollution is increased; after the baking is completed, the potato chips and the chips are screened out, the baking-screening efficiency is low, and the risk of food pollution is increased. Overall, the prior art is cumbersome to operate and has a low level of automation.

Disclosure of Invention

Aiming at the problems of low potato chip slicing-drying production efficiency and high pollution risk in the prior art, the invention provides an automatic potato chip slicing-drying feeding system, which can realize drying-sieving cyclic feeding, reduce process operation, simplify mechanical equipment and reduce pollution risk.

The technical scheme of the invention is as follows:

automatic potato chip section stoving sieving system of pay-off, characterized by, include: a plurality of slicing machines, a material conveying device, a feeding rail conveying device, a plurality of dryers, a sieving device, a ground rail and a plurality of motors; the dryer comprises a dryer body, a fourth belt and a material returning and transporting device; the fourth belt is a bidirectional conveying discharging belt of the dryer body and is perpendicular to the discharging hole; the material returning and transporting device is a belt transporting device, the starting end receives the material transported out from one side of the fourth belt, and the other end is positioned above the feeding inlet of the dryer body; the materials transmitted from the other side of the fourth belt are received by the sieving device; the dryers are sequentially arranged into a straight line;

the material conveying device comprises a first belt and a second belt; the first belt is arranged below the discharge port of the slicer, and the slicer is arranged on one side of the first belt in a straight line; the second belt is a belt with a lifted tail end, the front section receives materials output by the first belt, the tail end is positioned in the middle of a straight line formed by arranging the dryer, a material receiving point of a third belt is formed, and the materials are sent to the third belt;

the feeding track conveying device comprises a feeding track and a conveying table; the feeding track is two parallel tracks positioned above the feeding ports of the dryers, and the length of the feeding track is not less than the distance between the feeding ports of the front dryer and the rear dryer; the conveying table comprises a third belt and a roller moving device which is borne by and arranged below the third belt, and is arranged on the feeding track to move conveyed materials; the length of the third belt is not less than the farthest distance between the material receiving point and the material inlet of the dryer; the third belt is a bidirectional transmission belt;

the sieving device comprises a vibrating sieving device, a fifth belt and a sixth belt; the vibration sieving device, the fifth belt and the sixth belt are sequentially connected to form a logistics continuous transmission mechanism, a plurality of steerable pulleys are arranged below the continuous transmission mechanism, and the pulleys are matched with the movement of the sieving device on the ground track; the starting end of the vibration screen is positioned below one side of the fourth belt, and the tail end of the sixth belt is positioned above the material returning and conveying device; the fifth belt is a lifting belt with the tail end lifted upwards; the ground tracks are tiled in front of the dryers and used for moving the sieving device;

the motors supply the operations of the first to sixth belts, the sieving vibrator, the feeding rail, and the ground rail, respectively.

Further, the ground track is embedded into the ground for laying, and a baffle is arranged at the tail end of the sub-track and used for preventing the sieving device from continuously moving forwards.

Further, the sieving device is provided with a controller for controlling the operation of the pulleys.

Furthermore, the rotatable pulley is provided with an anti-slip sheet, and the anti-slip sheet is started to fix the sieving device when the sieving device operates.

Further, the feeding track conveying device is provided with a controller for controlling the movement of the conveying table and the transmission of the third belt.

Further, a plurality of baffles are uniformly distributed on the fifth belt, the belt is divided into a plurality of small grooves, and materials are prevented from being conveyed upwards to slide.

Further, the two sides of the third belt are provided with protective baffle plates to prevent excessive materials from sliding out and falling; and two ends of the feeding track are respectively provided with a baffle plate for preventing the conveying table from sliding out of the track.

Further, the dryer and the slicer are arranged in parallel in two lines.

Further, the roller moving device is arranged on the fixed parts of the rotating shafts at the two ends of the third belt.

Further, a reverse buckling groove is formed above the first belt and used for covering materials, and a movable door is arranged above the groove at the outlet of each slicing machine and used for observing the material condition at the position of the inner slice.

The invention has the beneficial effects that:

1. the whole process is automatic in feeding, so that manual carrying is not needed completely, and labor force is saved;

2, the track type conveying table is simple in structure, positioning operation of feeding can be realized by only one belt device and one track device, and feeding can enter the conveying table at any time through ingenious belt length setting, so that the operation is ingenious;

3. the slicing machine is arranged in a straight line to simplify a slicing and transporting device, and only one belt is needed to bring out slices, so that the transporting device for feeding and slicing of the slicing machine is simplified;

4. the linear arrangement of the dryer is matched with the feeding conveying track and the sieving device track, so that the track device is simplified, the feeding and sieving efficiency is improved, the equipment is simplified, the risk of equipment maintenance is reduced, and the production efficiency is improved in a hidden way;

5. the drying return device and the sieving device change the working mode of sieving after drying in the prior art, and the sieving can be carried out for multiple times in the drying process through the drying-sieving cycle reciprocation, so that the residue rate of crushed aggregates is greatly reduced, and the similar stirring operation is realized in the sieving process, so that the drying time is not delayed completely; the sieving device is a sliding device, and can be moved to another dryer after sieving is completed by the dryer, so that the cost of each sieving device is reduced, and the utilization rate of the device is increased; in the returning process of the materials, the materials are conveyed from the dryer and then conveyed into the dryer through the conveyor belt, the arrangement of the original materials is changed after returning, the similar material stirring function is realized, fragments generated by stirring of other machines are avoided, and the product quality is improved.

Drawings

FIG. 1 is a schematic diagram of an automatic feeding system according to the present invention;

FIG. 2 is a schematic view of a feed rail transport apparatus according to the present invention;

FIG. 3 is a schematic view of a drying-sieving partial device according to the present invention;

FIG. 4 is a schematic view of a portion of a material handling apparatus according to the present invention;

description of the reference numerals: 100 is a slicer; 200 is a material conveying device; 210 is a first belt; 211 is a movable door; 220 is a second belt; 300 is a feed rail transport; 310 is a feed rail; 311 is a feeding track baffle; 320 is a transport table; 321 is a third belt; 323 is a third belt stop; 322 is a roller movement device; 400 is a dryer; 410 is a dryer body; 420 is a fourth belt; 430 is a material return transport; 500 is a sieving device; 510 is a vibrating screen; 520 is a fifth belt; 521 is a belt baffle; 530 is a sixth belt; 550 is a pulley; 600 is a ground track; 610 is a main track; 620 is a split track; 621 track baffles;

Detailed Description

The invention is further described with reference to the following detailed drawings in order to make the technical means, the inventive features, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1-3, an automatic feeding potato chip slicing, drying and sieving system comprises: microtome 100, material handling device 200, feed rail handling device 300, dryer 400, sifting device 500, ground rail 600, and several motors (shown in the drawing); dryer 400 includes dryer body 410, fourth belt 420, material return conveyor 430; the fourth belt 420 is a bidirectional conveying discharge belt of the dryer body 410 and is arranged perpendicular to the discharge port; the material returning and transporting device 430 is a belt transporting device, the starting end receives the material transferred from one side of the fourth belt 420, and the other end is located above the feeding hole of the dryer body 410; the material conveyed out of the other side of the fourth belt 420 is received by the sieving device 500;

the material returning and transporting device 430 is used for transporting the material from the dryer to the dryer through the conveyor belt in the returning process, and changing the arrangement of the original material after returning, realizing the stirring-like function and achieving the purpose of uniform drying;

the dryers 400 are sequentially arranged in a straight line; the dryer 400 is arranged in a straight line in cooperation with the linear arrangement of the feeding rail transportation device 300, so that transportation equipment is simplified to the greatest extent, production cost is reduced, and equipment maintenance risk is reduced;

the material transporting device 200 comprises a first belt 210 and a second belt 220; a first belt 210 is arranged below a discharge hole of the slicer 100, and the slicer 100 is arranged on one side of the first belt 210 in a straight line;

the linear arrangement of the slicing machines simplifies the belt of the material conveying device, and only one belt can bear slices output by all the slicing machines, so that the equipment is simplified most; if the slicing efficiency of one slicer is high enough to supply a plurality of dryers for operation, only one slicer may be provided. The linear arrangement of the dryers provides conditions for the most simplified rail, and feeding of all dryers can be achieved by only a simple rail.

The second belt 220 is a belt with a raised end, the front section receiving the material from the first belt 210, the end being positioned in the middle of the line in which the dryer is arranged, forming a material receiving point (not shown) for the third belt，Feeding the material to a third belt 321;

the feed rail transporting apparatus 300 includes a feed rail 310 and a transporting table 320; the feeding track 310 is two parallel roller tracks positioned above the feeding ports of the dryer 400, and the length is not less than the distance between the feeding ports of the front dryer and the rear dryer; the conveying platform 320 comprises a third belt 321 and a roller moving device 322 which is carried and installed below the third belt 321, and the conveying platform 320 is arranged on the feeding track 310 to move conveyed materials; the length of the third belt 321 is not less than the farthest distance between the material receiving point and the material inlet of the dryer; the third belt 321 is in bidirectional transmission;

the bidirectional arrangement of the third belt 321 has the length not smaller than the farthest distance between the material receiving point and the material feeding port of the dryer, so that the material on the whole track is conveyed, if the length is smaller than the distance, the third belt 321 has the risk that the material directly falls into the track when receiving the material transmitted by the second belt 220, and the length of the invention can ensure that the material transmitted by the second belt 220 falls into the third belt 321 at any time, so that the working efficiency of the equipment is improved; if the length of the third belt 321 is too long, the length of the feeding track needs to be increased or the extending space on two sides of the belt needs to be larger to realize the material conveying of the belt to the feeding ports of all the dryer 400, so that the production space and the production equipment are wasted, the production cost is increased, and the production efficiency is reduced;

the sieving apparatus 500 includes a vibrating sieving machine 510, a fifth belt 520, a sixth belt 530; the vibration sifter 510, the fifth belt 520 and the sixth belt 530 are sequentially connected to form a logistics continuous transmission mechanism, a plurality of diverting pulleys 550 are arranged below the continuous transmission mechanism, and the pulleys 550 are matched with the movement of the sifting device 500 on the ground track 600; the starting end of the vibration sifter 510 is positioned below one side of the fourth belt 420, and the tail end of the sixth belt 530 is positioned above the material returning and conveying device 430, so that the material after the vibration sifting is conveyed to the material returning and conveying device and then conveyed back to the dryer through the material returning and conveying device, and a continuous process is formed; the fifth belt is a lifting belt with the tail end lifted upwards; the ground track is tiled in front of each dryer for movement of the sieving device. A preferred ground track set is described below.

A floor rail 600 as shown in fig. 1 and 3 includes two parallel main rails 610 and a number of sub-rails 620 perpendicular to the main rails equal to the dryer; the main rail 610 is parallel to a straight line formed by the arrangement of the dryer 400, and the rail pitch is equal to the width of the sieving device 500; the sub-track 620 is a parallel track having a distance equal to the length of the sieving apparatus 500, starting from one track of the main track 610 away from the dryer, and a sub-track 620 is provided in front of each dryer 400 for moving the sieving apparatus to a sieving position.

The sieving device 500 is independently arranged, during production, each dryer needs to be sieved for 1-2 times, the sieving time is generally only ten minutes each time, the drying time is only several hours each time, the feeding of each dryer needs a certain time, namely, after each dryer finishes drying, each dryer discharges at different time, and the interval time also provides conditions for one sieving decoration to meet the requirements of more dryers. If each dryer is provided with one sieving device, not only space is occupied, but also resources are wasted, and one sieving device can simultaneously meet the sieving procedures of a plurality of dryers; an independent movable sieving device is arranged, so that the production space is saved, independent sieving workshops are reduced, and the equipment is simplified most; the configuration of the rails further improves the automation of the production.

Further, the ground track 600 is embedded in the ground for laying, and a blocking piece 621 is provided at the end of the sub-track 620 for preventing the sieving apparatus 500 from moving forward.

Further, the sieving apparatus 500 is provided with a controller (not shown) for controlling the operation of the pulley 550.

Further, a non-slip sheet (not shown in the figure) is arranged on the diverting pulley, and the non-slip sheet is started to fix the sieving device when the sieving device operates.

Further, the feeding rail transporting apparatus 300 is provided with a controller (not shown) for controlling the movement of the transporting table 320 and the driving of the third belt 320.

Further, the fifth belt 520 is uniformly provided with a plurality of baffles 521 to divide the belt into a plurality of small grooves to prevent the materials from being conveyed upwards and slipped.

Further, the two sides of the third belt 321 are provided with a protection baffle 323 to prevent excessive materials from sliding out and falling; the two ends of the feeding rail 310 are respectively provided with a baffle 311 for preventing the transportation platform 320 from sliding out of the rail.

Further, the dryer 400 is aligned in two lines parallel to the slicer 100. The parallel arrangement of the dryer and the slicing machine achieves the minimum space and the simplest equipment on the space and the equipment, greatly reduces the production cost, reduces the maintenance risk of the production equipment, and improves the production efficiency intangibly.

Further, the roller moving device is disposed on the fixing portion of the rotating shaft at two ends of the third belt 321. Therefore, the free rotation of the belt can be realized, and the integral movement of the whole belt can also be realized.

Further, a reverse recess (not shown) is provided above the first belt 210 for covering the material, and a movable door 211 is provided above the recess at the outlet of each slicer for observing the material condition at the inner slicing position.

In actual production, after the slicer 100 starts to work, the material transporting device 200 transports the material to the feeding track transporting device 300, the material transporting device is controlled by the third belt 321 to transport the material to all the dryers 400, after the material enters the dryer 400, the material returning device 430 is started to dry the material, the material is discharged and stirred to achieve the purpose of uniform drying, in the drying process, the sieving device 500 is started to sieve the material for each dryer in sequence, the fourth belt 420 changes the output direction during sieving, the material is transported to the sieving device 500 from the transportation to the material returning device 430, and after the material sieving is completed, the transportation direction of the fourth belt 420 is changed again to carry out the material returning-drying procedure; the screening apparatus 500 enters the next dryer for operation.

The device of the invention has the advantages of simplified structure, simple operation of equipment, fully and reasonably utilizing the production time, improving the production efficiency and reducing the production cost.

The present invention is not limited to the above-mentioned embodiments, and any changes or substitutions that can be easily understood by those skilled in the art within the technical scope of the present invention are intended to be included in the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the protection scope of the claims.

Claims (10)

1. Automatic potato chip section stoving sieving system of pay-off, characterized by, include: a plurality of slicing machines, a material conveying device, a feeding rail conveying device, a plurality of dryers, a sieving device, a ground rail and a plurality of motors;

the dryer comprises a dryer body, a fourth belt and a material returning and transporting device; the fourth belt is a bidirectional conveying discharging belt of the dryer body and is perpendicular to the discharging hole; the material returning and transporting device is a belt transporting device, the starting end receives the material transported out from one side of the fourth belt, and the other end is positioned above the feeding inlet of the dryer body; the materials transmitted from the other side of the fourth belt are received by the sieving device; the dryers are sequentially arranged into a straight line;

the material conveying device comprises a first belt and a second belt; the first belt is arranged below the discharge port of the slicer, and the slicer is arranged on one side of the first belt in a straight line; the second belt is a belt with a lifted tail end, the front section receives materials output by the first belt, the tail end is positioned in the middle of a straight line formed by arranging the dryer, a material receiving point of a third belt is formed, and the materials are sent to the third belt;

the feeding track conveying device comprises a feeding track and a conveying table; the feeding track is two parallel tracks positioned above the feeding ports of the dryers, and the length of the feeding track is not less than the distance between the feeding ports of the front dryer and the rear dryer; the conveying table comprises a third belt and a roller moving device which is borne by and arranged below the third belt, and is arranged on the feeding track to move conveyed materials; the length of the third belt is not less than the farthest distance between the material receiving point and the material inlet of the dryer; the third belt is a bidirectional transmission belt;

the sieving device comprises a vibrating sieving device, a fifth belt and a sixth belt; the vibration sieving device, the fifth belt and the sixth belt are sequentially connected to form a logistics continuous transmission mechanism, a plurality of steerable pulleys are arranged below the continuous transmission mechanism, and the pulleys are matched with the movement of the sieving device on the ground track; the starting end of the vibration screen is positioned below one side of the fourth belt, and the tail end of the sixth belt is positioned above the material returning and conveying device; the fifth belt is a lifting belt with the tail end lifted upwards;

the ground tracks are tiled in front of the dryers and used for moving the sieving device;

the motors respectively supply the first to sixth belts, the sieving vibrator, the feeding rail and the ground rail to run;

the ground track comprises two parallel main tracks and a number of sub-tracks perpendicular to the main tracks, which are equal to those of the dryer.

2. The automatic potato chip slicing, drying and sieving system of claim 1, wherein said ground track is embedded in the ground for laying, and said split track has a stop at the end thereof for preventing the sieving device from moving forward.

3. An automatic potato chip slicing, drying and sieving system according to claim 1, wherein said sieving device is provided with a controller for remotely controlling the operation of said pulleys.

4. The automatic potato chip slicing, drying and sieving system according to claim 1, wherein said rotatable pulley is provided with a non-slip sheet, and said sieving device is operated by activating said non-slip sheet fixed sieving device.

5. The automatic potato chip slicing, drying and sieving system of claim 1, wherein said feeding track conveyor has a controller for remotely controlling movement of said conveyor table and transmission of said third belt.

6. The automatic potato chip slicing, drying and sieving system according to claim 1, wherein the fifth belt is uniformly provided with a plurality of baffles to divide the belt into a plurality of small grooves to prevent materials from being conveyed upwards and slipped.

7. The automatic feeding potato chip slicing, drying and sieving system according to claim 1, wherein the third belt is provided with protection baffle plates at two sides to prevent excessive sliding of materials; and two ends of the feeding track are respectively provided with a baffle plate for preventing the conveying table from sliding out of the track.

8. The automatic potato chip slicing, drying and sieving system of claim 1, wherein said dryer is aligned in two lines parallel to said slicer.

9. The automatic potato chip slicing, drying and sieving system of claim 1, wherein said roller moving means is disposed on the fixed portion of the rotating shaft at both ends of said third belt.

10. The automatic potato chip slicing, drying and sieving system of claim 1, wherein a cover is disposed above said first belt for covering the material, and a movable door is disposed above the cover at the exit of each slicer for observing the material condition at the internal slicing.