CN210162659U - Device is put in to deoxidier - Google Patents

Abstract

The utility model relates to a deoxidizer throwing device of a food packaging machine, which comprises a conical vibration disk (1), a throwing device (2) and a quantity-limiting blanking device (3), wherein the quantity-limiting blanking device (3) is arranged on the outer side of the conical vibration disk (1) close to a discharge port of the conical vibration disk, and the throwing device (2) is arranged in the conical vibration disk (1) close to a spiral track of the discharge port in the tangential extending direction; the number of the conical vibration discs (1) is 2, and the conical vibration discs are symmetrically arranged on two sides of the feeding device (2); the utility model discloses a put in the device and can effectively improve and produce line production efficiency, and supply easily and change and put in the material, this structure can not damage single bag deoxidier in bulk, can reduce the possibility to food pollution, and guaranteed to put in accurate rate.

Description

Device is put in to deoxidier

Technical Field

The utility model belongs to the technical field of the packing, concretely relates to food packaging machinery's a deoxidier delivery device.

Background

At present, a reel type deoxidizer is mostly adopted in the food packaging industry, a conveying device of the deoxidizer is rotationally conveyed through a plurality of rollers, a blade is used for cutting the reel type deoxidizer into small packets according to production requirements in the production process and putting the small packets into a food packaging bag, the device is complex in structure and difficult in material replacement, the efficiency is low when the reel type deoxidizer is replaced under the condition that workers are not skilled, the blade easily causes personal injury to the operators, and the phenomenon that the reel type deoxidizer is cut off can occur at the same time, so that the food pollution is caused; and a roll of deoxidizer is in large quantity, so that production line delay is easily caused due to reasons such as abnormal halt in the production process, and the production efficiency is reduced.

Of course, some manufacturers also choose a single bulk deoxidizer bag, but the deoxidizer bag is basically put into a food packaging bag by manpower.

SUMMERY OF THE UTILITY MODEL

For solving at least one problem that exists among the above-mentioned prior art, the utility model provides a device is put in to deoxidier, this put in device duplex position setting can effectively improve and produce line production efficiency, and supply easily and change the material to can reduce the possibility to food pollution, guarantee to put in accurate rate.

In order to achieve the above object, the technical solution of the present invention is: a deoxidizer throwing device comprises a conical vibrating disk, a throwing device and a quantity-limiting blanking device, wherein the quantity-limiting blanking device is arranged on the conical vibrating disk and is close to the outer side of a discharge port of the conical vibrating disk, and the throwing device is arranged in the conical vibrating disk and is close to the tangential extension direction of a spiral track of the discharge port; the toper vibration dish is 2, and the symmetry is located the both sides of puting in the device.

Further, toper vibration dish is including locating the first cowl, second cowl, the third cowl that the dish end is far away gradually from toper vibration dish central line at the bottom of the dish, be equipped with the direction round steel of perpendicular to dish end between first cowl and the second cowl, the third cowl interlude is provided with accent appearance round steel, one end meets with toper vibration dish inside wall first spiral track, first spiral track arranges upwards along toper vibration dish inside wall spiral, and its track is by the width narrowing, first spiral track end smooth connection has the second spiral track of upwards arranging along toper vibration dish inside wall spiral, second spiral track's track beginning is narrower than first spiral track's track end, and second spiral track's end connection has the third spiral track, third spiral track's beginning is less than second spiral track's end, the inner side wall of the upper vibration disc is provided with a through hole and a U-shaped hole parallel to the track, and the tail end of the third spiral track is also smoothly connected with an outlet guide part.

Further, the through hole is formed between the outlet guide portion and the U-shaped hole.

Furthermore, the quantity-limiting blanking device comprises a quantity-limiting blanking cylinder and a quantity-limiting blanking induction unit, a U-shaped quantity-limiting blanking part is arranged at the movable end of the quantity-limiting blanking cylinder, the U-shaped quantity-limiting blanking part is arranged close to a U-shaped hole, and the quantity-limiting blanking induction unit is arranged close to a through hole.

Further, the feeding device comprises a feeding cylinder, a movable end of the feeding cylinder is connected with a movable block, two ends of the movable block are provided with vertically-installed material suction cylinders, the movable end of the material suction cylinder is connected with a material taking part, a lower material barrel and a storage box are sequentially arranged below the material taking part along the telescopic direction of the material suction cylinders, and a storage sensing unit is arranged on the bottom surface of the storage box.

Furthermore, the material taking part is a material sucking vacuum chuck.

The utility model has the advantages that:

1. this device adopts symmetrical formula duplex position structure, can effectively improve and produce line production efficiency.

2. The device adopts a vibration disc type logistics conveying structure, and materials are easily supplemented and replaced.

3. The structure of the device can not damage the bulk single-bag deoxidizer, thereby reducing the possibility of food pollution.

4. The design of the whole structure of the device can effectively avoid the mistaken addition and the excessive addition of bulk deoxidizers, and ensure the feeding precision.

Drawings

Fig. 1 is a schematic structural view of a deoxidizer delivery device of the present invention.

Fig. 2 is a top view of the cone-shaped vibration plate of the present invention.

Fig. 3 is a schematic structural view of the cone-shaped vibration plate of the present invention.

Fig. 4 is the structure diagram of the middle feeding device and the quantity-limiting blanking device of the present invention.

In the figure: 1. a conical vibrating disk; 2. a delivery device; 3. a limited blanking device; 4. a second arc baffle; 5. a first arced barrier; 6. guiding round steel; 7. a third arc baffle; 8. a first guide bar; 9. a second guide bar; 10. a material limiting barrier strip; 11. adjusting the posture round steel; 12. a first spiral track; 13. a second spiral track; 14. a third spiral track; 15. an outlet guide portion; 16. a limited blanking cylinder; 17. a limited blanking sensing unit; 18. a storage box; 19. a storage sensing unit; 20. a material suction cylinder; 21. a material taking part; 22. a feeding cylinder; 23. a moving block; 24. feeding the material barrel; 25. a quantity-limited blanking part; 26. a through hole; 27. a U-shaped hole.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments. It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict. For convenience of description, the words "upper", "lower", "left" and "right" in the following description are used only to indicate the correspondence between the upper, lower, left and right directions of the drawings themselves, and do not limit the structure.

As shown in fig. 1-4, the structure of the present invention is: a deoxidizer throwing device comprises a conical vibrating disk 1, a throwing device 2 and a quantity-limiting blanking device 3, wherein the quantity-limiting blanking device 3 is arranged on the conical vibrating disk 1 and is close to the outer side of a discharge hole of the conical vibrating disk, and the throwing device 2 is arranged in the conical vibrating disk 1 and is close to the tangential extension direction of a spiral track of the discharge hole; the conical vibration discs 1 are 2 and are symmetrically arranged on two sides of the releasing device 2.

As an optimal technical scheme of this design, toper vibration dish 1 is including locating the first cowl 5, second cowl 4, the third cowl 7 that the dish end is far away gradually from toper vibration dish central line, be equipped with the direction round steel 6 at the perpendicular to dish end between first cowl 5 and second cowl 4, third cowl 7 interlude is provided with and transfers appearance round steel 11 to make the furthest dependence of deoxidier in on the inner wall of toper vibration dish 1, third cowl 7 one end meets with toper vibration dish inside wall first spiral track 12, first spiral track 12 arranges upwards along toper vibration dish inside wall spiral (the lower extreme is established as the top, and the upper end is established as the end), and its track is narrowed by the width, first spiral track 12 end smooth connection has along toper vibration dish inside wall spiral upwards's the second spiral track 13, the initial end of the second spiral track 13 is narrower than the terminal end of the first spiral track 12, which is beneficial to the separation of overlapped deoxidizers, the terminal of the second spiral track 13 is connected with a third spiral track 14, the initial end of the third spiral track 14 is lower than the terminal end of the second spiral track 13, adhesive multi-package deoxidizers are eliminated through height difference, the inner side wall of the vibrating disk above the multi-package deoxidizer is provided with a through hole 26 and a U-shaped hole 27 parallel to the track, the terminal end of the third spiral track 14 is also connected with an outlet guide part 15 in a smooth manner, furthermore, the inner wall of the vibrating disk above the middle section of the track of the second spiral track 13 is also provided with a first guide strip 8 and a material limiting baffle strip 10 along the spiral direction, the inner wall of the vibrating disk above the third spiral track 14 is also provided with a second guide strip 9 and a material limiting baffle strip 10 along the spiral direction, and the guide strips are used for guiding the deoxidizer which is vertically, allowing horizontal transverse passage; the material limiting barrier strip is used for intercepting redundant deoxidizer.

As a preferred embodiment of the present design, the through hole 26 is provided between the outlet guide 15 and the U-shaped hole 27.

As a preferred technical solution of this design, the limited blanking device 3 includes a limited blanking cylinder 16 and a limited blanking induction unit 17, the movable end of the limited blanking cylinder 16 is provided with a U-shaped limited blanking part 25, the U-shaped limited blanking part 25 is arranged next to a U-shaped hole 27, and can be movably inserted into the U-shaped hole 27 so as to enter into the interior of the conical vibration disk 1 to play a role of limiting the amount of deoxidizer, and the limited blanking induction unit 17 is a photoelectric sensor which is arranged next to a through hole 26 and detects the existence of deoxidizer through the through hole 26.

As an optimal technical scheme of this design, the feeding device 2 includes a feeding cylinder 22, the movable end of the feeding cylinder 22 is connected with a long strip-shaped moving block 23, the horizontal both ends of the moving block 23 are provided with the material suction cylinder 20 of vertical installation, the movable end of the material suction cylinder 20 is connected with a material taking part 21, a discharging barrel 24 and a storage box 18 are sequentially arranged below the material taking part 21 along the telescopic direction of the material suction cylinder 20, namely, when the material suction cylinder 20 extends out, the discharging barrel 24 is arranged below the material taking part 21, when the material suction cylinder 20 retracts, the storage box 18 is arranged below the material taking part 21, a storage sensing unit 19 is arranged on the bottom surface of the storage box 18, the storage sensing unit 19 is a photoelectric sensor, and the discharging barrel 24 is of a bucket-shaped structure.

As a preferred technical solution of the present design, the material taking part 21 is a material sucking vacuum chuck.

When the device is used specifically, bulk deoxidizer is poured into the conical vibration discs 1 on two sides of the deoxidizer throwing device, all parts in the conical vibration discs 1 are matched to enable the deoxidizer reaching the third spiral track 14 to be in a single-bag state and transversely lean against the inner side wall of the conical vibration discs 1, and when the deoxidizer passes through the through hole 26, the deoxidizer is sensed by the limited blanking sensing unit 17, and at the moment. The quantitative blanking cylinder 16 extends out, the quantitative blanking part 25 is inserted into the conical vibration disk 1 through the U-shaped hole 27 to limit other sensed deoxidizers behind the deoxidizers, the sensed single deoxidizer then advances into the outlet guide part 15 according to the track to fall into the storage box 18, the storage sensing unit 19 below the storage box 18 senses the deoxidizers, the material suction cylinder 20 above the storage box 18 extends downwards at the moment, after the material suction vacuum suction cup at the lower end of the material suction cylinder 20 abuts against the deoxidizers to absorb the deoxidizers, the material suction cylinder 20 retracts upwards, after the material suction cylinder 20 retracts completely, the feeding cylinder 22 extends out, the absorbed deoxidizers are indirectly driven to move forwards until the feeding cylinder 22 extends out completely, at the moment, the deoxidizers are positioned above the blanking cylinder, the material suction vacuum suction cup stops absorbing, the deoxidizers fall into a food packaging bag, and the feeding cylinder 22 retracts to the original position, completing one-time putting.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims (6)

1. A deoxidizer throwing device comprises a conical vibrating disk (1), and is characterized by also comprising a throwing device (2) and a quantity-limiting blanking device (3), wherein the quantity-limiting blanking device (3) is arranged on the conical vibrating disk (1) close to the outer side of a discharge hole of the conical vibrating disk, and the throwing device (2) is arranged in the conical vibrating disk (1) close to the tangential extending direction of a spiral track of the discharge hole; the number of the conical vibration discs (1) is 2, and the conical vibration discs are symmetrically arranged on two sides of the releasing device (2).

2. The deoxidizer throwing device according to claim 1, wherein the conical vibration disk (1) comprises a first arc baffle (5), a second arc baffle (4) and a third arc baffle (7) which are arranged at the bottom of the disk and are gradually far away from the central line of the conical vibration disk, guide round steel (6) perpendicular to the bottom of the disk is arranged between the first arc baffle (5) and the second arc baffle (4), a posture adjusting round steel (11) is arranged in the middle section of the third arc baffle (7), one end of the posture adjusting round steel is connected with a first spiral track (12) on the inner side wall of the conical vibration disk, the first spiral track (12) is spirally and upwards arranged along the inner side wall of the conical vibration disk, the track is narrowed by width, the tail end of the first spiral track (12) is smoothly connected with a second spiral track (13) which is spirally and upwards arranged along the inner side wall of the conical vibration disk, the track starting end of the second spiral track (13) is narrower than the tail end of the first spiral track (12), the tail end of the second spiral track (13) is connected with a third spiral track (14), the starting end of the third spiral track (14) is lower than the tail end of the second spiral track (13), a through hole (26) and a U-shaped hole (27) parallel to the tracks are formed in the inner side wall of the vibration disc above the third spiral track, and the tail end of the third spiral track (14) is further connected with an outlet guide part (15) in a smooth mode.

3. A deoxidizer delivery device according to claim 2, characterized in that the through hole (26) is provided between the outlet guide (15) and the U-shaped hole (27).

4. The deoxidizer throwing device according to claim 3, characterized in that the blanking limiting device (3) comprises a blanking limiting cylinder (16) and a blanking limiting induction unit (17), wherein a U-shaped blanking limiting part (25) is arranged at the movable end of the blanking limiting cylinder (16), the U-shaped blanking limiting part (25) is arranged next to a U-shaped hole (27), and the blanking limiting induction unit (17) is arranged next to a through hole (26).

5. The deoxidizer throwing device according to claim 4, wherein the throwing device (2) comprises a feeding cylinder (22), a moving end of the feeding cylinder (22) is connected with a moving block (23), two ends of the moving block (23) are provided with vertically-mounted material suction cylinders (20), and a material taking part (21) is connected with a moving end of each material suction cylinder (20); the material taking part (21) is sequentially provided with a discharging barrel (24) and a storage box (18) along the telescopic direction of the material suction cylinder (20), and the bottom surface of the storage box (18) is provided with a storage sensing unit (19).

6. The deoxidizer delivery device according to claim 5, wherein the material taking part (21) is a suction vacuum cup.

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