CN110254757B - Automatic packing and anti-blocking bag sealing equipment for nuts - Google Patents

Abstract

The invention provides automatic nut packaging anti-blocking bag sealing equipment which comprises a shell, wherein a plurality of moving wheels are symmetrically arranged below the shell, a nut feeding device is arranged above the shell, a rotary shell is arranged below the nut feeding device, a conveying pipeline is arranged on the left side of the shell, the upper side of an output pipeline corresponds to the rotary shell, a bag sealing device is arranged inside the shell, an anti-blocking device is arranged above the bag sealing device, the bag sealing device is connected with the anti-blocking device through a rotating shaft, and the bag sealing device is positioned below the output pipeline.

Description

Automatic packing and anti-blocking bag sealing equipment for nuts

Technical Field

The invention relates to the technical field of packaging automation, in particular to automatic nut packaging, blocking prevention and bag sealing equipment.

Background

Most machine part packing needs two people work on the domestic market, is responsible for the letter sorting bagging-off alone, and another is responsible for sealing, and is not high to workshop operation workman's technical requirement, but the human cost is very big, and work efficiency is low, and the demand of adaptation factory enterprise to production sales volume that can not be fine, consequently the automatic packing of nut is prevented stifled envelope equipment and is replaced artifical the completion letter sorting and seal work urgently. .

Disclosure of Invention

Aiming at the problems, the invention provides automatic nut packaging, anti-blocking and bag sealing equipment which adopts the same shell, all processes are carried out in one equipment, the process of transferring among different equipment is avoided, the poured nut parts are conveyed into a rotary shell after being rotated and stirred by a nut feeding device, the nut parts are periodically conveyed into a conveying pipeline by the rotary shell, the conveying pipeline is periodically knocked by an anti-blocking device, the nut parts smoothly fall into a plastic bag for holding the nuts, the bag sealing is completed by a bag sealing device, and the whole working process is automatically controlled by a control module.

The technical scheme adopted by the invention is as follows: the utility model provides an automatic stifled envelope equipment of packing of nut which characterized in that includes: the device comprises a shell, a plurality of movable wheels, a nut feeding device and a control module, wherein the shell is used for supporting the whole device, the plurality of movable wheels are symmetrically arranged below the shell, the nut feeding device is arranged above the movable wheels, and the control module is arranged on the side surface of the shell;

the nut feeding device is used for rotationally stirring the poured nut parts, and a rotary shell is arranged below the nut feeding device;

a conveying pipeline is arranged on the left side of the shell, a rotary shell corresponds to the upper part of the conveying pipeline, and the rotary shell periodically conveys the nut parts into the conveying pipeline;

a bag sealing device is arranged in the shell, an anti-blocking device is arranged above the bag sealing device, the bag sealing device is connected with the anti-blocking device through a rotating shaft, and the bag sealing device is positioned below the conveying pipeline;

the anti-blocking device periodically beats the conveying pipeline to enable the nut parts to smoothly fall into a plastic bag for containing the nuts, and the bag sealing device completes bag sealing.

Furthermore, the nut feeding device also comprises a first shell, a stirring rod is arranged in the first shell, and a rotating device is connected below the stirring rod;

the rotating device is located below the first shell and can drive the stirring rod to rotate, a first through hole is formed in the surface of the first shell, and the nut part falls into the rotating shell through the first through hole.

Furthermore, a second through hole is formed in the surface of the rotary shell, a first mounting plate is arranged above the rotary shell, and a first pipeline is arranged on the first mounting plate;

first pipeline fixed connection the first through-hole of nut pan feeding device, first mounting panel top symmetry is equipped with a plurality of support columns, the first shell of nut pan feeding device is through a plurality of support column fixed connection first mounting panel, first pivot pole is connected to first mounting panel below.

Further, pipeline includes vertical pipeline and slope pipeline, the slope pipeline is oblique infundibulate, slope pipeline top corresponds the second through-hole of gyration shell, pipeline passes through fixed plate fixed connection the shell.

Furthermore, a first cam and a second cam are arranged below the rotating shaft, and a first roller is arranged on the right side of the rotating shaft;

the first roller is fixed on a second mounting plate, a first fixing plate is arranged on the right side of the first roller, the second mounting plate is fixedly connected with the first fixing plate, two first telescopic rods are symmetrically connected to the right side of the first fixing plate, and a first spring is connected to the right side of the first fixing plate;

the right side of the first spring is connected with a fixed support, push rods are symmetrically arranged in front and back of the rotating shaft, the first fixed plate is fixedly connected with the push rods, and the left side of the second cam is provided with a second roller;

the second gyro wheel fixed connection second fixed plate, second fixed plate left side is equipped with the second telescopic link, second telescopic link left side fixed connection third fixed plate, third fixed plate sliding connection the push rod, the first hot piece of third fixed plate left side fixed connection, the correspondence of first hot piece left side is equipped with the second hot piece, the hot piece fixed connection fourth fixed plate of second, fourth fixed plate sliding connection the push rod, fourth fixed plate left side symmetry is equipped with the second spring, the fifth fixed plate is connected in the second spring left side, fifth fixed plate fixed connection the push rod, the push rod longitudinal symmetry is equipped with a plurality of spacing gyro wheels.

Furthermore, a third cam is symmetrically arranged above the rotating shaft, third rollers are correspondingly arranged on two sides of the third cam, the third rollers are connected with a first connecting rod through a third spring, the first connecting rod is movably connected with a roller, the roller is fixedly connected with a second connecting rod, and the second connecting rod is fixedly connected with a push plate.

Furthermore, the rotating shaft is connected with a motor shaft of the driving motor through a coupler, a first gear is arranged on the rotating shaft, the first gear is meshed with a second gear, a third connecting rod is fixedly connected above the second gear, a first rotating rod of the rotating shell is connected above the third connecting rod, and a fixing block is arranged on the surface of the first rotating rod.

Due to the adoption of the technical scheme, the invention has the following advantages:

1. according to the invention, by arranging the same shell, all process steps are put into the same equipment, and the highly integrated arrangement reduces the transmission time among different equipment in the manufacturing process, saves the occupied space, reduces the labor intensity of workers and improves the working efficiency;

2. the automatic bag sealing machine adopts a full-automatic design, can automatically complete bag sealing only by pouring nut parts into the feeding device, has simple working process and concise working procedure, and greatly saves labor cost;

3. according to the invention, the anti-blocking device is arranged, and the pushing plate is continuously knocked, so that the blocking phenomenon in the conveying pipeline can not occur, and the working efficiency is improved.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a bottom view of the nut feeder of the present invention;

FIG. 3 is a top view of the nut feeding apparatus of the present invention;

FIG. 4 is a schematic view of a swivel housing of the present invention;

FIG. 5 is a schematic view of the construction of the bag sealer of the present invention;

FIG. 6 is a schematic view of the anti-clogging device of the present invention.

In the figure: 1-housing, 11-moving wheel, 2-nut feeding device, 21-first housing, 22-stirring rod, 23-rotating device, 24-first through hole, 3-rotating shell, 31-second through hole, 32-first mounting plate, 33-first pipeline, 34-supporting column, 35-first rotating rod, 4-conveying pipeline, 41-vertical pipeline, 42-inclined pipeline, 43-fixing plate, 5-bag sealing device, 51-first cam, 52-second cam, 53-first roller, 54-second mounting plate, 55-first fixing plate, 56-first telescopic rod, 57-first spring, 58-fixing bracket, 59-push rod, 511-second roller, 512-second fixing plate, 513-a second telescopic rod, 514-a third fixing plate, 515-a first hot block, 516-a second hot block, 517-a fourth fixing plate, 518-a second spring, 519-a fifth fixing plate, 520-a limiting roller, 6-an anti-blocking device, 61-a third cam, 62-a third roller, 63-a third spring, 64-a first connecting rod, 65-a roller, 66-a second connecting rod, 67-a push plate, 7-a rotating shaft, 71-a first gear, 72-a second gear, 73-a third gear, and 74-a fixing block.

Detailed Description

The technical scheme of the invention is further specifically described by the following embodiments and the accompanying drawings.

Examples

As shown in fig. 1, 2, 3, 4, 5 and 6, an automatic nut packing anti-blocking bag sealing device comprises: the device comprises a shell 1, wherein the shell 1 is used for supporting the whole device, a plurality of moving wheels 11 are symmetrically arranged below the shell 1, a nut feeding device 2 is arranged above the shell, and a control module is arranged on the side surface of the shell;

the nut feeding device 2 rotates and stirs the poured nut parts, and a rotary shell 3 is arranged below the nut feeding device;

a conveying pipeline 4 is arranged on the left side of the shell 1, a rotary shell 3 is arranged above the conveying pipeline 4, and the rotary shell 3 periodically conveys nut parts to the conveying pipeline 4;

a bag sealing device 5 is arranged in the shell 1, an anti-blocking device 6 is arranged above the bag sealing device 5, the bag sealing device 5 is connected with the anti-blocking device 6 through a rotating shaft 7, and the bag sealing device 5 is positioned below the conveying pipeline 4;

the anti-blocking device 6 periodically beats the conveying pipeline 4 to enable the nut parts to smoothly fall into a plastic bag for holding the nuts, and the bag sealing device 5 completes bag sealing;

the control module comprises a control panel and a PLC controller and is used for controlling the whole equipment to automatically work;

put a shell 1 with all processes, the process of need transmission between different equipment has been avoided, and all equipment all with control module electric connection, write control program in control module's PLC as required, operation control module's control panel controls equipment during the use, whole working process is through the automatic control of control module, at first transport to gyration shell 3 after the rotatory stirring of nut part that will pour into through income nut pan feeding device 2, in 3 cycle conveying nut parts to pipeline 4 through gyration shell, beat pipeline 4 through 6 cycles of anti-blocking device, make nut part smoothly fall into the plastic bag of holding nut, accomplish the bag-sealing through bag-sealing device 5, thereby the automatic nut packing bag-sealing work that accomplishes.

In an alternative of this embodiment, as shown in fig. 2 and fig. 3, the nut feeding device 2 further includes a first housing 21, a stirring rod 22 is disposed inside the first housing 21, and a rotating device 23 is connected below the stirring rod 22;

the rotating device 23 is positioned below the first shell 21, the rotating device 23 can drive the stirring rod 22 to rotate, the surface of the first shell 21 is provided with a first through hole 24, and the nut part falls into the rotating shell 3 through the first through hole 24;

the nut parts are poured into the first shell 21 of the nut feeding device 2, the stepping motor drives the rotating device 23 to rotate, and then the rotating device 23 drives the stirring rod 22 to stir, so that the parts fall into the first pipeline 33 through the first through hole 24.

In an alternative of this embodiment, as shown in fig. 4, a second through hole 31 is provided on the surface of the revolving shell 3, a first mounting plate 32 is provided above the revolving shell 3, and a first pipeline 33 is provided on the first mounting plate 32;

the first pipeline 33 is fixedly connected with the first through hole 24 of the nut feeding device 2, a plurality of support columns 34 are symmetrically arranged above the first mounting plate 32, the first shell 21 of the nut feeding device 2 is fixedly connected with the first mounting plate 32 through the support columns 34, and the first rotating rod 35 is connected below the first mounting plate 32;

the part falls into first pipeline 33, and rotation axis 7 drives first rotation pole 35 and rotates, and first rotation pole 35 drives first mounting panel 32 and rotates, and the part cycle in first pipeline 33 falls into pipeline 4 through second through-hole 31.

In an alternative of this embodiment, as shown in fig. 1, the conveying pipe 4 includes a vertical pipe 41 and an inclined pipe 42, the inclined pipe 42 is in an inclined funnel shape so as to collect the parts falling from the second through hole 31, the upper side of the inclined pipe 42 corresponds to the second through hole 31 of the rotating shell 3, the conveying pipe 4 is fixedly connected to the housing 1 through a fixing plate 43, the parts in the first pipe 33 periodically fall into the inclined pipe 42 of the conveying pipe 4 through the second through hole 31 and then are collected into the vertical pipe 41 from the inclined pipe 42, thereby facilitating the plastic bag containing.

In an alternative of the present embodiment, as shown in fig. 5, a first cam 51 and a second cam 52 are provided below the rotating shaft 7, and a first roller 53 is provided on the right side of the rotating shaft 7;

the first roller 53 is fixed on the second mounting plate 54, the right side of the first roller 53 is provided with a first fixing plate 55, the second mounting plate 54 is fixedly connected with the first fixing plate 55, the right side of the first fixing plate 55 is symmetrically connected with two first telescopic rods 56, and the right side of the first fixing plate 55 is connected with a first spring 57;

the right side of the first spring 57 is connected with a fixed bracket 58, push rods 59 are symmetrically arranged at the front and the rear of the rotating shaft 7, the first fixed plate 55 is fixedly connected with the push rods 59, and the left side of the second cam 52 is provided with a second roller 511;

the second roller 511 is fixedly connected with a second fixing plate 512, a second telescopic rod 513 is arranged on the left side of the second fixing plate 512, the left side of the second telescopic rod 513 is fixedly connected with a third fixing plate 514, the third fixing plate 514 is connected with a push rod 59 in a sliding manner, the left side of the third fixing plate 514 is fixedly connected with a first heat block 515, a second heat block 516 is correspondingly arranged on the left side of the first heat block 515, the second heat block 516 is fixedly connected with a fourth fixing plate 517, the fourth fixing plate 517 is connected with a push rod 59 in a sliding manner, a second spring 518 is symmetrically arranged on the left side of the fourth fixing plate 517, a fifth fixing plate 519 is connected on the left side of the second spring 518, the fifth fixing plate 519 is fixedly connected with the push rod 59, and a plurality of limiting rollers 520 are symmetrically arranged on the upper and lower sides of the push rod;

the rotating shaft 7 drives the first cam 51 and the second cam 52 to rotate, the first heat block 515 and the second heat block 516 are contacted periodically, and a plastic bag for holding nuts is arranged between the two heat blocks to complete bag sealing.

In an alternative of this embodiment, as shown in fig. 6, third cams 61 are symmetrically arranged above the rotating shaft 7, third rollers 62 are correspondingly arranged on two sides of the third cams 61, the third rollers 62 are connected with first connecting rods 64 through third springs 63, the first connecting rods 64 are movably connected with rollers 65, the rollers 65 are fixedly connected with second connecting rods 66, the second connecting rods 66 are fixedly connected with push plates 67, the rotating shaft 7 drives the third cams 61 to rotate, and the push plates 67 periodically beat the vertical pipes 41 to avoid pipe blockage.

In an alternative of this embodiment, as shown in fig. 6, the rotating shaft 7 is connected to a motor shaft of a driving motor through a coupler, a first gear 71 is disposed on the rotating shaft, the first gear 71 is engaged with a second gear 72, a third connecting rod 73 is fixedly connected above the second gear 72, a first rotating rod 35 of the rotating shell 3 is connected above the third connecting rod 73, a fixing block 74 is disposed on a surface of the first rotating rod 35, the driving motor drives the rotating shaft 7 to rotate, and then drives the first rotating rod 35 and the third cam 61 to rotate, so that the pushing plate 67 periodically strikes the vertical pipeline 41 and periodically contacts the first heat block 515 and the second heat block 516 to complete bag sealing.

Claims (1)

1. The utility model provides an automatic stifled envelope equipment of packing of nut which characterized in that includes: the device comprises a shell (1), wherein the shell (1) is used for supporting the whole device, a plurality of moving wheels (11) are symmetrically arranged below the shell, a nut feeding device (2) is arranged above the shell, and a control module is arranged on the side surface of the shell;

the nut feeding device (2) rotationally stirs the poured nut parts, and a rotary shell (3) is arranged below the nut feeding device;

a conveying pipeline (4) is arranged on the left side of the shell (1), a rotary shell (3) corresponds to the upper portion of the conveying pipeline (4), and the rotary shell (3) periodically conveys nut parts to the conveying pipeline (4);

a bag sealing device (5) is arranged in the shell (1), an anti-blocking device (6) is arranged above the bag sealing device (5), the bag sealing device (5) is connected with the anti-blocking device (6) through a rotating shaft (7), and the bag sealing device (5) is positioned below the conveying pipeline (4);

the anti-blocking device (6) periodically beats the conveying pipeline (4) to enable the nut parts to smoothly fall into a plastic bag for containing the nuts, and the bag sealing device (5) completes bag sealing;

the nut feeding device (2) further comprises a first shell (21), a stirring rod (22) is arranged inside the first shell (21), and a rotating device (23) is connected below the stirring rod (22);

the rotating device (23) is positioned below the first shell (21), the rotating device (23) can drive the stirring rod (22) to rotate, a first through hole (24) is formed in the surface of the first shell (21), and the nut part falls into the rotating shell (3) through the first through hole (24);

a second through hole (31) is formed in the surface of the rotary shell (3), a first mounting plate (32) is arranged above the rotary shell (3), and a first pipeline (33) is arranged on the first mounting plate (32);

the first pipeline (33) is fixedly connected with a first through hole (24) of the nut feeding device (2), a plurality of supporting columns (34) are symmetrically arranged above the first mounting plate (32), a first shell (21) of the nut feeding device (2) is fixedly connected with the first mounting plate (32) through the supporting columns (34), and a first rotating rod (35) is connected below the first mounting plate (32);

the conveying pipeline (4) comprises a vertical pipeline (41) and an inclined pipeline (42), the inclined pipeline (42) is in an inclined funnel shape, a second through hole (31) of the rotary shell (3) corresponds to the upper part of the inclined pipeline (42), and the conveying pipeline (4) is fixedly connected with the shell (1) through a fixing plate (43);

a first cam (51) and a second cam (52) are arranged below the rotating shaft (7), and a first roller (53) is arranged on the right side of the rotating shaft (7); the first roller (53) is fixed on a second mounting plate (54), a first fixing plate (55) is arranged on the right side of the first roller (53), the second mounting plate (54) is fixedly connected with the first fixing plate (55), two first telescopic rods (56) are symmetrically connected to the right side of the first fixing plate (55), and a first spring (57) is connected to the right side of the first fixing plate (5); a fixed bracket (58) is connected to the right side of the first spring (57), push rods (59) are symmetrically arranged in front and back of the rotating shaft (7), the first fixed plate (55) is fixedly connected with the push rods (59), and a second roller (511) is arranged on the left side of the second cam (52); the second roller (511) is fixedly connected with a second fixed plate (512), a second telescopic rod (513) is arranged at the left side of the second fixed plate (512), the left side of the second telescopic rod (513) is fixedly connected with a third fixing plate (514), the third fixing plate (514) is connected with the push rod (59) in a sliding way, the left side of the third fixing plate (514) is fixedly connected with a first heat block (515), the left side of the first heat block (515) is correspondingly provided with a second heat block (516), the second thermal block (516) is fixedly connected with a fourth fixing plate (517), the fourth fixing plate (517) is connected with the push rod (59) in a sliding manner, a second spring (518) is symmetrically arranged at the left side of the fourth fixing plate (517), the left side of the second spring (518) is connected with a fifth fixing plate (519), the fifth fixing plate (519) is fixedly connected with the push rod (59), and a plurality of limiting rollers (502) are symmetrically arranged on the push rod from top to bottom;

third cams (61) are symmetrically arranged above the rotating shaft (7), third rollers (62) are correspondingly arranged on two sides of each third cam (61), each third roller (62) is connected with a first connecting rod (64) through a third spring (63), each first connecting rod (64) is movably connected with a roller (65), each roller (65) is fixedly connected with a second connecting rod (66), and each second connecting rod (66) is fixedly connected with a push plate (67);

the rotating shaft (7) is connected with a motor shaft of a driving motor through a coupler, a first gear (71) is arranged on the rotating shaft, the first gear (71) is meshed with a second gear (72), a third connecting rod (73) is fixedly connected above the second gear (72), a first rotating rod (35) of the rotary shell (3) is connected above the third connecting rod (73), and a fixed block (74) is arranged on the surface of the first rotating rod (35);

the control module comprises a control panel and a PLC controller and is used for controlling the whole equipment to automatically work; integrate all equipment to a shell (1), the process of need transmission between different equipment has been avoided, and all equipment all with control module electric connection, write control program in control module's PLC as required, operation control module's control panel controls equipment during the use, whole working process passes through control module automated control, at first transport to gyration shell (3) after the rotatory stirring of nut part that will pour into through nut pan feeding device (2), in cycle conveying nut part to pipeline (4) through gyration shell (3), beat pipeline (4) through stifled device (6) cycle, make the nut part fall into the plastic bag of holding the nut smoothly, accomplish the envelope through envelope device (5), thereby the work of nut packing envelope is accomplished in the automation.

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