阅读说明：本技术 用于非油炸烘焙薯片生产线的装托设备 (A dress holds in palm equipment that is used for non-fried potato chip production line that cures ) 是由 张韬 李海疆 于 2020-04-28 设计创作，主要内容包括：本发明公开了一种用于非油炸烘焙薯片生产线的装托设备,包括冷却输送带、整理滑台、第一整理输送带、第一震动道、第二整理输送带、爬升变距输送带、第二震动道和装托机；所述冷却输送带、整理滑台和第一整理输送带依次连接,所述冷却输送带的接入端与撒料机连接,所述第一整理输送带的输出端同时与所有的第一震动道连接,每条第一震动道、相应的第二整理输送带、相应的爬升变距输送带、相应的第二震动道及相应的装托机依次连接。本发明将各个部件之间依次衔接,以完成自动的装盒工作,减少传统模式的人工操作,提高了工作效率,且降低了食品被污染的风险。(The invention discloses a support loading device for a non-fried baked potato chip production line, which comprises a cooling conveyer belt, a sorting sliding table, a first sorting conveyer belt, a first vibration channel, a second sorting conveyer belt, a climbing variable-pitch conveyer belt, a second vibration channel and a support loading machine, wherein the cooling conveyer belt is arranged on the cooling conveyer belt; the cooling conveyer belt, arrangement slip table and first arrangement conveyer belt connect gradually, the incoming end and the spreader of cooling conveyer belt are connected, the output of first arrangement conveyer belt is said with all first vibrations simultaneously and is connected, and every first vibrations is said, corresponding second arrangement conveyer belt, corresponding displacement conveyer belt that climbs, corresponding second vibrations are said and corresponding dress holds in the palm the machine and connect gradually. According to the automatic boxing device, all parts are connected in sequence to finish automatic boxing work, manual operation in a traditional mode is reduced, the working efficiency is improved, and the risk of food contamination is reduced.)

1. A dress holds in palm equipment for non-fried baked potato chip production line which characterized in that: the automatic conveying device comprises a cooling conveying belt, a sorting sliding table, a first sorting conveying belt, at least 2 first vibration channels, second sorting conveying belts, climbing variable-pitch conveying belts, second vibration channels and loading and supporting machines, wherein the number of the second sorting conveying belts is the same as that of the first vibration channels;

the cooling conveyer belt, arrangement slip table and first arrangement conveyer belt connect gradually, the incoming end and the spreader of cooling conveyer belt are connected, the output of first arrangement conveyer belt is said with all first vibrations simultaneously and is connected, and every first vibrations is said, corresponding second arrangement conveyer belt, corresponding displacement conveyer belt that climbs, corresponding second vibrations are said and corresponding dress holds in the palm the machine and connect gradually.

2. The palletizing apparatus for a non-fried baked potato chip production line as in claim 1, wherein: the material receiving port of the material loading and supporting machine is connected with the second vibration channel, one end of the supporting box conveying belt is connected with the material sending and supporting device, the other end of the supporting box conveying belt is connected with the arranging device, and the conveying surface of the supporting box conveying belt is located below the material discharging port of the material loading and supporting machine.

3. The palletizing apparatus for a non-fried baked potato chip production line as in claim 2, wherein: the material grabbing and supporting machine comprises a case, a material grabbing mechanical arm and a cake loading mechanism, wherein a material access port is formed in one side of the case and connected with a second vibration channel, a feed opening is formed in the bottom of the case, and the material grabbing mechanical arm and the cake loading mechanism are both arranged in the case;

the cake loading mechanism comprises a rotating motor, a rotating shaft, a supporting platform and a bearing platform, wherein the rotating motor is arranged in the case, a power output shaft of the rotating motor is connected with the upper end of the rotating shaft, the lower end of the rotating shaft is connected with the supporting platform, and the bearing platform is arranged on the supporting platform; after the material grabbing manipulator clamps and takes the material and place on the plummer, the rotating electrical machines drives the plummer to move right above the feed opening through the rotating shaft and the supporting platform.

4. The palletizing apparatus for a non-fried baked potato chip production line as in claim 3, wherein: grab material manipulator includes first servo motor, second servo motor, first splint and second splint, first servo motor and second servo motor are all installed in quick-witted incasement, the one end of first splint and the one end of second splint are connected respectively in first servo motor and second servo motor, just form the double-layered groove of pressing from both sides the material of getting between first splint and the second splint.

5. The palletizing apparatus for a non-fried baked potato chip production line as in claim 2, wherein: the hair-pin device comprises a hair-pin platform, a hair-pin motor, a box supporting frame for storing a supporting box, a synchronous belt, a pair of synchronous wheels and a pair of spiral wheels, wherein the hair-pin motor and the pair of synchronous wheels are both arranged on the hair-pin platform, the pair of synchronous wheels are connected with a power output shaft of the hair-pin motor through the synchronous belt, each synchronous wheel is connected with the corresponding spiral wheel through a corresponding connecting rod, the box supporting frame is arranged on the hair-pin platform and is positioned between the pair of spiral wheels, and the spiral wheels are provided with spiral grooves matched with the outer edges of the supporting box; one end of the conveying surface of the tray conveying belt is arranged right below the tray box.

6. The palletizing apparatus for a non-fried baked potato chip production line as in claim 5, wherein: the synchronous wheels and the spiral wheels are provided with a plurality of pairs, the number of pairs of the synchronous wheels is equal to that of pairs of the spiral wheels, and meanwhile, the number of the box supporting frames is the same as that of the pairs of the spiral wheels.

7. The palletizing apparatus for a non-fried baked potato chip production line as in claim 5, wherein: the spiral groove comprises a cut-in spiral groove and a pull-out spiral groove, the cut-in spiral groove is connected with the pull-out spiral groove, the cut-in spiral groove and the pull-out spiral groove are distributed from the upper end to the lower end of the spiral wheel in sequence, and the pitch of the cut-in spiral groove is smaller than that of the pull-out spiral groove.

8. The palletizing apparatus for a non-fried baked potato chip production line as in claim 2, wherein: the arranging device comprises an arranging frame, an arranging cylinder and an arranging jig made of silica gel, the arranging frame is arranged above the other end of the supporting box conveying belt, a cylinder body of the arranging cylinder is arranged on the arranging frame, the arranging jig is arranged on a telescopic rod of the arranging cylinder, and the pressing surface of the arranging jig is arranged opposite to the conveying surface of the supporting box conveying belt.

9. The palletizing apparatus for a non-fried baked potato chip production line as in claim 1, wherein: the arrangement sliding table comprises a support frame, a sliding plate and a plurality of sliding table guide bars, the sliding plate is obliquely arranged on the support frame, the upper end of the sliding plate is connected with the upper end of the cooling conveying belt, and the lower end of the sliding plate is connected with the first arrangement conveying belt;

the sliding table guide bars are arranged on the sliding plate to form a slide way, and the width of the slide way is gradually reduced along the advancing direction of the material.

10. The palletizing apparatus for a non-fried baked potato chip production line as in claim 1, wherein: the first arranging conveying belt comprises an arranging steel belt, an arranging platform, an arranging motor, a plurality of arranging guide strips, an arranging crossbeam and an arranging rod, wherein the arranging steel belt is installed on the arranging platform, the arranging motor is installed on the arranging platform, the plurality of arranging guide strips are installed on the arranging steel belt through the arranging rod, the arranging steel belt and the plurality of arranging guide strips form a plurality of arranging channels, the arranging channels are connected with the slide ways in a one-to-one correspondence mode, the arranging motor is installed on the arranging platform, the arranging crossbeam is installed on the arranging platform, one end of the arranging crossbeam is connected with a power output shaft of the arranging motor through an eccentric shaft, and meanwhile the plurality of arranging guide strips are connected with the arranging crossbeam.

Technical Field

The invention relates to food processing equipment, in particular to tray loading equipment for a non-fried baked potato chip production line.

Background

Potato chips are very popular snacks. After the potato chips are processed by other equipment, the potato chips need to be boxed and packaged. At present, each device for processing potato chips works independently, and after the potato chips are processed, the potato chips are manually transferred to subsequent devices for boxing and packaging. Although the method can finally finish boxing and subsequent packaging of the potato chips. But the working efficiency is low, and the production requirement cannot be met; meanwhile, the potato chips are easily polluted due to more manual contact, and finally the food does not reach the standard.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a tray loading device for a non-fried baked potato chip production line. This dress that is used for non-fried baked potato chip production line holds in palm equipment can improve work efficiency, reduces the contaminated risk of food simultaneously.

The purpose of the invention is realized by the following technical scheme: the support loading equipment for the non-fried baked potato chip production line comprises a cooling conveyer belt, a sorting sliding table, a first sorting conveyer belt, at least 2 first vibration channels, second sorting conveyer belts with the same number as the first vibration channels, climbing variable-pitch conveyer belts with the same number as the first vibration channels, second vibration channels with the same number as the first vibration channels and support loading machines with the same number as the first vibration channels;

the cooling conveyer belt, arrangement slip table and first arrangement conveyer belt connect gradually, the incoming end and the spreader of cooling conveyer belt are connected, the output of first arrangement conveyer belt is said with all first vibrations simultaneously and is connected, and every first vibrations is said, corresponding second arrangement conveyer belt, corresponding displacement conveyer belt that climbs, corresponding second vibrations are said and corresponding dress holds in the palm the machine and connect gradually.

Preferably, the loading and supporting equipment comprises a loading and supporting machine, a supporting device, a supporting box conveying belt and a finishing device, a material access port of the loading and supporting machine is connected with the second vibration channel, one end of the supporting box conveying belt is connected with the supporting device, the other end of the supporting box conveying belt is connected with the finishing device, and a conveying surface of the supporting box conveying belt is located below a feed opening of the loading and supporting machine.

Preferably, the support machine comprises a case, a material grabbing mechanical arm and a cake loading mechanism, a material access port is arranged on one side of the case and connected with the second vibration channel, a feed opening is arranged at the bottom of the case, and the material grabbing mechanical arm and the cake loading mechanism are both arranged in the case;

the cake loading mechanism comprises a rotating motor, a rotating shaft, a supporting platform and a bearing platform, wherein the rotating motor is arranged in the case, a power output shaft of the rotating motor is connected with the upper end of the rotating shaft, the lower end of the rotating shaft is connected with the supporting platform, and the bearing platform is arranged on the supporting platform; after the material grabbing manipulator clamps and takes the material and place on the plummer, the rotating electrical machines drives the plummer to move right above the feed opening through the rotating shaft and the supporting platform.

Preferably, the material grabbing manipulator comprises a first servo motor, a second servo motor, a first clamping plate and a second clamping plate, wherein the first servo motor and the second servo motor are both installed in the machine box, one end of the first clamping plate and one end of the second clamping plate are respectively connected to the first servo motor and the second servo motor, and a clamping groove for clamping materials is formed between the first clamping plate and the second clamping plate.

Preferably, the hair-pin device comprises a hair-pin platform, a hair-pin motor, a box supporting frame for storing a supporting box, a synchronous belt, a pair of synchronous wheels and a pair of spiral wheels, wherein the hair-pin motor and the pair of synchronous wheels are both arranged on the hair-pin platform, the pair of synchronous wheels are connected with a power output shaft of the hair-pin motor through the synchronous belt, each synchronous wheel is connected with the corresponding spiral wheel through a corresponding connecting rod, the box supporting frame is arranged on the hair-pin platform and is positioned between the pair of spiral wheels, and the spiral wheels are provided with spiral grooves matched with the outer edges of the supporting box; one end of the conveying surface of the tray conveying belt is arranged right below the tray box.

Preferably, the synchronizing wheel and the helical wheel are provided with a plurality of pairs, the number of pairs of the synchronizing wheel and the number of pairs of helical wheels are equal, and the number of the box holder is the same as that of the pairs of helical wheels.

Preferably, the spiral groove comprises a cut-in spiral groove and a pull-out spiral groove, the cut-in spiral groove is connected with the pull-out spiral groove, the cut-in spiral groove and the pull-out spiral groove are distributed from the upper end to the lower end of the spiral wheel in sequence, and the pitch of the cut-in spiral groove is smaller than that of the pull-out spiral groove.

Preferably, finishing device includes the arrangement tool that arrangement frame, arrangement cylinder and silica gel were made, the arrangement is installed in the top of the other end of holding in the palm the box conveyer belt, the cylinder body of arrangement cylinder is installed in the arrangement frame, the arrangement tool is installed in the telescopic link of arrangement cylinder, just the plane of putting in order of arrangement tool sets up with the transport plane of holding in the palm the box conveyer belt relatively.

Preferably, the arrangement sliding table comprises a support frame, a sliding plate and a plurality of sliding table guide bars, the sliding plate is obliquely arranged on the support frame, the upper end of the sliding plate is connected with the upper end of the cooling conveyer belt, and the lower end of the sliding plate is connected with the first arrangement conveyer belt;

the sliding table guide bars are arranged on the sliding plate to form a slide way, and the width of the slide way is gradually reduced along the advancing direction of the material.

Preferably, the first arranging conveyor belt comprises an arranging steel belt, an arranging platform, an arranging motor, a plurality of arranging guide bars, an arranging crossbeam and an arranging rod, the arranging steel belt is installed on the arranging platform, the arranging motor is installed on the arranging platform, the plurality of arranging guide bars are installed on the arranging steel belt through the arranging rod, the arranging steel belt and the plurality of arranging guide bars form a plurality of arranging channels, the arranging channels are connected with the slideways in a one-to-one correspondence manner, the arranging motor is installed on the arranging platform, the arranging crossbeam is installed on the arranging platform, one end of the arranging crossbeam is connected with a power output shaft of the arranging motor through an eccentric shaft, and meanwhile the plurality of arranging guide bars are connected with the arranging crossbeam.

Compared with the prior art, the invention has the following advantages:

this dress that is used for non-fried potato chip production line holds in palm equipment mainly comprises cooling conveyer belt, arrangement slip table, first arrangement conveyer belt, first vibrations way, second arrangement conveyer belt, the displacement conveyer belt that climbs, second vibrations way and dress holds in the palm the machine and constitute, this links up in proper order between each part to form automatic dress box work, reduce the manual operation of traditional mode, work efficiency is improved, and the contaminated risk of food has been reduced, thereby the security of food has been improved, with the standard that reaches the food requirement in the area.

Drawings

Figure 1 is a schematic diagram of the front half of the racking device for a non-fried baked potato chip production line of the present invention.

Fig. 2 is a top view of fig. 1.

Figure 3 is a schematic diagram of the back half of the racking device for a non-fried baked potato chip production line of the present invention.

Fig. 4 is a top view of fig. 3.

Fig. 5 is a front view of the palletizer of the present invention.

Fig. 6 is a top view of the palletizer of the present invention. For clarity of illustration, the hair-pin device is omitted from this figure.

Fig. 7 is a side view of the palletizer of the present invention.

Fig. 8 is a front view of a hair-holding device of the present invention.

Fig. 9 is a cross-sectional view of a hair-holding device of the present invention.

Fig. 10 is a top view of a hair-holding device of the present invention.

Fig. 11 is a schematic view of the structure of the helical wheel of the present invention.

Fig. 12 is a front view of a spiral wheel of the present invention.

Fig. 13 is a schematic view of a connection structure between a finishing cylinder and a finishing jig in the finishing device of the present invention.

Fig. 14 is a front view of a collation guide of the present invention.

Fig. 15 is a side view of a collation guide of the present invention.

Fig. 16 is a schematic view of the connection between the collating motor and the collating conductors in the first collating conveyor belt of the present invention.

Fig. 17 is a front view of fig. 16.

Wherein, 1 is a cooling conveyer belt, 2 is a sorting sliding table, 3 is a first sorting conveyer belt, 4 is a first vibrating channel, 5 is a second sorting conveyer belt, 6 is a climbing variable-pitch conveyer belt, 7 is a second vibrating channel, 8 is a loading machine, 9 is a loading machine, 10 is a lifting device, 11 is a box conveyer belt, 12 is a sorting device, 13 is a case, 13-1 is a material inlet, 13-2 is a discharge port, 14 is a material grabbing manipulator, 15 is a cake loading mechanism, 16 is a rotating motor, 17 is a rotating shaft, 18 is a supporting platform, 19 is a bearing platform, 20 is a first servo motor, 21 is a second servo motor, 22 is a first clamping plate, 23 is a second clamping plate, 24 is a lifting platform, 25 is a lifting motor, 26 is a box supporting frame, 27 is a cutting-in synchronous belt, 28 is a synchronous wheel, 29 is a spiral wheel, 30 is a spiral groove, 30-1 is a spiral groove, and 30-2 is a drawing spiral groove, 31 is a tension pulley, 32 is a sorting frame, 33 is a sorting cylinder, 34 is a sorting jig, 35 is a support frame, 36 is a sliding table guide bar, 37 is a slideway, 38 is a sorting steel belt, 39 is a sorting platform, 40 is a sorting motor, 41 is a sorting guide bar, 42 is a sorting beam, 43 is a sorting rod, 44 is a sorting channel, and 45 is a connecting rod.

Detailed Description

The invention is further illustrated by the following figures and examples.

The loading device for the non-fried baked potato chip production line shown in fig. 1 to 4 comprises a cooling conveyer belt, a sorting sliding table, a first sorting conveyer belt, at least 2 first vibrating channels, second sorting conveyer belts with the same number as the first vibrating channels, climbing variable-pitch conveyer belts with the same number as the first vibrating channels, second vibrating channels with the same number as the first vibrating channels and loading machines with the same number as the first vibrating channels; the cooling conveyer belt, arrangement slip table and first arrangement conveyer belt connect gradually, the incoming end and the spreader of cooling conveyer belt are connected, the output of first arrangement conveyer belt is said with all first vibrations simultaneously and is connected, and every first vibrations is said, corresponding second arrangement conveyer belt, corresponding displacement conveyer belt that climbs, corresponding second vibrations are said and corresponding dress holds in the palm the machine and connect gradually. Adopt the dress of this structure to hold in the palm equipment, the cooling conveyer belt is used for receiving the semi-manufactured goods that comes out from the spreader, and this cooling conveyer belt adopts current conveyer belt, and the process that semi-manufactured goods moved on the cooling conveyer belt realizes naturally cooling, then is sent to the arrangement slip table, and the conducting bar on the arrangement slip table is arranged all chips on the slip table into multiseriate and is sent into first arrangement conveyer belt, and first arrangement conveyer belt is further arranged the potato chip of each row afterwards to arrange the potato chip of each row more neatly. Then, each row of potato chips enters a corresponding first vibration channel, and each row of potato chips vibrates in the first vibration channel, so that all the potato chips in each row of potato chips are overlapped together in sequence from head to tail. The potato chips stacked together are sent to a second sorting conveyer belt to be sorted and arranged again. And then the potato chips are conveyed to a second vibration channel through a climbing distance-changing conveyor belt in sequence, the second vibration channel provides larger vibration force, so that the side surfaces of the potato chips are attached after the potato chips in each row stand up (namely the outer edges of the potato chips are attached to the surface of the first vibration channel), and the attached potato chips are conveyed to a loading and supporting machine for packaging. In order to reduce the design cost, the climbing pitch-variable conveying belt adopted in the embodiment adopts the existing conveying belt. Meanwhile, the first vibration channel and the second vibration channel have the same structure and can be directly purchased from the market, so that the design cost is reduced. At least 2 first channels needing to be moved are connected behind the first sorting conveying belt, so that boxing of the potato chips can be further accelerated, and the working efficiency is improved.

As shown in fig. 5 to 7, the support device includes a support machine, a support device, a support box conveyor belt and a finishing device, the material inlet of the support machine is connected with the second vibration channel, one end of the support box conveyor belt is connected with the support device, the other end of the support box conveyor belt is connected with the finishing device, and the conveying surface of the support box conveyor belt is located below the feed opening of the support machine. The support machine equipment is simple in structure, high in automation and capable of reducing a large amount of manual operations and improving production efficiency. The tray conveyer belt can be directly purchased and used in the market to reduce the design cost.

The material grabbing and supporting machine comprises a case, a material grabbing mechanical arm and a cake loading mechanism, wherein a material access port is formed in one side of the case and connected with a second vibration channel, a feed opening is formed in the bottom of the case, and the material grabbing mechanical arm and the cake loading mechanism are both arranged in the case; the cake loading mechanism comprises a rotating motor, a rotating shaft, a supporting platform and a bearing platform, wherein the rotating motor is arranged in the case, a power output shaft of the rotating motor is connected with the upper end of the rotating shaft, the lower end of the rotating shaft is connected with the supporting platform, and the bearing platform is arranged on the supporting platform; after the material grabbing manipulator clamps and takes the material and place on the plummer, the rotating electrical machines drives the plummer to move right above the feed opening through the rotating shaft and the supporting platform. The second shakes the material access mouth of carrying quick-witted case with each row of chips, and every material grabbing manipulator presss from both sides and gets a row of chips to place this row of chips on the plummer of dress cake mechanism, the plummer is driven directly over the feed opening next, and the gate of plummer is opened at last, and this row of chips falls into the tray box on the tray box conveyer belt through the dead weight, and this tray box that loads with the chips is carried the finishing device and is put in order and press to let the tray box that loads with the chips by better encapsulation.

Grab material manipulator includes first servo motor, second servo motor, first splint and second splint, first servo motor and second servo motor are all installed in quick-witted incasement, the one end of first splint and the one end of second splint are connected respectively in first servo motor and second servo motor, just form the double-layered groove of pressing from both sides the material of getting between first splint and the second splint. The structure is simple, the control is convenient, and the work is reliable.

As shown in fig. 8 to 10, the hair-pin device includes a hair-pin platform, a hair-pin motor, a box holder for storing a box, a synchronous belt, a pair of synchronous wheels and a pair of spiral wheels, wherein the hair-pin motor and the pair of synchronous wheels are both mounted on the hair-pin platform, the pair of synchronous wheels are both connected with a power output shaft of the hair-pin motor through the synchronous belt, each synchronous wheel is connected with a corresponding spiral wheel through a corresponding connecting rod, the box holder is mounted on the hair-pin platform, the box holder is located between the pair of spiral wheels, and the spiral wheels are provided with spiral grooves matched with the outer edge of the box holder; one end of the conveying surface of the tray conveying belt is arranged right below the tray box. The upper end of the supporting box is provided with an outer edge, and the thickness of the outer edge is smaller than the groove width of the spiral groove. When the outer edge of the tray positioned at the lowest part of the tray frame is embedded into the spiral groove. When the hair-pin motor starts, the hair-pin motor drives each pair of two spiral wheels in the same pair to synchronously rotate through the synchronous belt and the synchronous wheel, the outer edge slides downwards along the spiral groove, and finally, after the spiral groove is not formed, the support box at the lowest part automatically and directly falls onto the support box conveying belt so as to finish the work of distributing the support boxes. In order to improve the working reliability, the hair-supporting platform is also provided with a tensioning wheel which is connected with the synchronous belt, thereby ensuring the effective transmission of the power of the hair-supporting motor.

The synchronous wheels and the spiral wheels are provided with a plurality of pairs, the number of pairs of the synchronous wheels is equal to that of pairs of the spiral wheels, and meanwhile, the number of the box supporting frames is the same as that of the pairs of the spiral wheels. A plurality of pairs of synchronizing wheels, spiral wheels and a plurality of box supporting frames are adopted, and a plurality of supporting boxes can be simultaneously placed, so that the potato chips can be accelerated to be loaded into the supporting boxes, and the working efficiency is further improved.

As shown in fig. 11 and 12, the spiral groove includes a cut-in spiral groove and a pull-out spiral groove, the cut-in spiral groove is connected with the pull-out spiral groove, the cut-in spiral groove and the pull-out spiral groove are sequentially distributed from the upper end to the lower end of the spiral wheel, and the pitch of the cut-in spiral groove is smaller than that of the pull-out spiral groove. The spiral groove of the structure has simple structure and is easy to process. The pitch of the cut-in spiral groove is smaller, and is 3mm in the embodiment, so that the outer edge of the stir-fried food can be accurately embedded into the cut-in spiral groove; the adoption of a larger spiral of the pull-out spiral groove, the pitch of which in this embodiment is 48mm, allows the outer edge to leave the pull-out spiral groove quickly, thereby allowing the tray to fall onto the tray conveyor belt quickly.

As shown in fig. 5, 6 and 13, the arrangement device comprises an arrangement frame, an arrangement cylinder and an arrangement jig made of silica gel, the arrangement frame is arranged above the other end of the support box conveying belt, the cylinder body of the arrangement cylinder is arranged on the arrangement frame, the arrangement jig is arranged on the telescopic rod of the arrangement cylinder, and the pressing surface of the arrangement jig is opposite to the conveying surface of the support box conveying belt. When the support box loaded with the potato chips is conveyed to the position right below the arranging jig, the arranging cylinder drives the arranging jig to move downwards to press the potato chips in the support box to be flat, so that subsequent packaging work is facilitated.

As shown in fig. 1 and 2, the sorting sliding table comprises a support frame, a sliding plate and a plurality of sliding table guide bars, the sliding plate is obliquely arranged on the support frame, the upper end of the sliding plate is connected with the upper end of the cooling conveyer belt, and the lower end of the sliding plate is connected with the first sorting conveyer belt; the sliding table guide bars are arranged on the sliding plate to form a slide way, and the width of the slide way is gradually reduced along the advancing direction of the material. As shown in fig. 14 and 15, the slide table guide bars are made of triangular steel plates, and each slide table guide bar is installed on the slide plate to form a slide way with gradually reduced width, so that disordered potato chips are arranged in order, the slide plate is obliquely arranged, the potato chips can slide downwards under the dead weight, the use of a motor can be saved, and the functions of energy conservation and environmental protection are further achieved.

As shown in fig. 12, 16 and 17, the first sorting conveyor belt includes a sorting steel belt, a sorting platform, a sorting motor, a plurality of sorting guide bars, a sorting cross beam and a sorting rod, the sorting steel belt is mounted on the sorting platform, the sorting motor is mounted on the sorting platform, the plurality of sorting guide bars are mounted on the sorting steel belt through the sorting rod, the sorting steel belt and the plurality of sorting guide bars form a plurality of sorting channels, the sorting channels are connected with the slideways in a one-to-one correspondence manner, the sorting motor is mounted on the sorting platform, the sorting cross beam is mounted on the sorting platform, one end of the sorting cross beam is connected with a power output shaft of the sorting motor through an eccentric shaft, and the plurality of sorting guide bars are connected with the sorting. The first arrangement conveyer belt and the second arrangement conveyer belt are identical in structure and mainly comprise an arrangement steel belt, an arrangement platform, an arrangement motor, a plurality of arrangement guide bars, an arrangement crossbeam and an arrangement rod. Specifically, many arrangement conducting bars are installed on the arrangement platform in parallel to form many arrangement passageways that communicate with the slide, the arrangement motor drives arrangement conducting bars reciprocating swing through eccentric shaft and crossbeam simultaneously, thereby arrange each row of chips more neatly, in order to make things convenient for each chip in each row in the follow-up end to fold mutually.

The above-mentioned embodiments are preferred embodiments of the present invention, and the present invention is not limited thereto, and any other modifications or equivalent substitutions that do not depart from the technical spirit of the present invention are included in the scope of the present invention.