CN215853996U - Micro powder automatic feeding device - Google Patents

Abstract

The utility model discloses an automatic micro powder feeding device, which comprises: the operation bin is used for supporting the bag body filled with the micro powder, and the top end of the operation bin is provided with an opening for the bottom of the bag body to enter the operation bin; the circular cutting bag breaking mechanism is positioned in the operation bin and is used for cutting a bottom opening of the bag body; the material storage bin A is positioned below the operation bin and is used for containing micro powder falling due to the bottom opening of the bag body; the feeding end of the auger conveying device with uneven auger blade spacing is communicated with the discharge port at the bottom end of the material storage bin A, and the discharge end of the auger conveying device is communicated with the material storage bin B through the material lifting mechanism. The automatic micro powder feeding device can obviously save labor, can complete the automatic bag breaking, automatic collection, automatic feeding and transferring and other operations of micro powder, and has automatic operation, high production efficiency and high precision.

Description

Micro powder automatic feeding device

Technical Field

The utility model relates to the field of bag breaking and micro powder transportation, in particular to an automatic micro powder feeding device.

Background

Among the prior art, miropowder production process material loading operation is mostly manual operation, and the cost of labor is high, and the scene raise dust is great, and operational environment is poor, and the above circumstances not only increases manufacturing cost, and directly leads to the production environment to worsen, is unfavorable for the stable high-efficient execution of production operation.

Patent specification No. CN110949699A discloses an automatic vacuum feeding bagging apparatus, the feeding side of which has a plurality of feeding frames, each of which is provided with a bag breaking component; the bag breaking component comprises: a suction barrel which is arranged to run through from top to bottom; the lifting sealing seat is inserted into the suction barrel in a lifting and movable manner, is used for sealing the upper end of the suction barrel and is used for loading the bag body; a pair of lifting cylinders for driving the lifting seal seat to lift; the sawing mechanism is used for sawing the lower side of the bag body; wherein, two groups of negative pressure air nozzles which are oppositely arranged and communicated with the suction opening of the air pump are arranged on the lifting seal seat so as to respectively suck the side walls of the bag body. The sealing performance of the dust material conveying process is guaranteed while the bag can be automatically broken.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the field, the utility model provides the automatic micro powder feeding device which can finish automatic bag breaking and automatic feeding, is automatic in operation, efficient and accurate, and is clean and tidy in-situ environment.

An automatic micro powder feeding device comprises:

the operation bin is used for supporting the bag body filled with the micro powder, and the top end of the operation bin is provided with an opening for the bottom of the bag body to enter the operation bin;

the circular cutting bag breaking mechanism is positioned in the operation bin and is used for cutting a bottom opening of the bag body;

the material storage bin A is positioned below the operation bin and is used for containing micro powder falling due to the bottom opening of the bag body;

the feeding end of the auger conveying device with uneven auger blade spacing is communicated with the discharge port at the bottom end of the material storage bin A, and the discharge end of the auger conveying device is communicated with the material storage bin B through the material lifting mechanism.

Above-mentioned miropowder automatic feeding device during operation, the bag body of being equipped with miropowder is placed on open-top's operation storehouse, because the action of gravity, bag body bottom is passed through in the opening gets into the operation storehouse, and the material storehouse A is gone up in the bag body bottom breach unloading to the broken bag mechanism of ring cutting, miropowder drop, gets into auger conveyor through material storehouse A bottom discharge gate, and auger conveyor's auger blade interval is inhomogeneous to broken arch effect of guarantee, auger conveyor ejection of compact gets into material hoist mechanism, promotes to material storehouse B, accomplishes the material loading operation.

In a preferred embodiment, the micro powder automatic feeding device comprises a circular cutting blade group, wherein the circular cutting blade group can be used for the bottom of the bag body to penetrate through and can extend out of the blade towards the circle center to form a circular cutting surface. The ring cutting blade group is annular. After the bottom of the bag body in the operation bin passes through the annular middle part, the annular cutting blade group extends out of the blades towards the circle center to puncture and cut the bag body, and the bottom of the bag body is broken to generate circular opening blanking.

Preferably, the automatic micro powder feeding device further comprises a bag bottom storage bin and a bottom bag grabbing mechanism which can extend into the operation bin and is used for grabbing bottom bags separated due to the bottom openings of the bag bodies and transferring the bottom bags to the bag bottom storage bin. The bag bottom storage bin can be independently arranged outside the operation bin.

In a preferred embodiment, miropowder automatic feeding device, end bag mechanism of grabbing include be located the annular supporting seat that the broken bag mechanism below of ring-type cutting, can supply bag body bottom to pass, the external portable action bars of annular supporting seat, be equipped with scalable anchor clamps on the annular supporting seat. The movable operating rod can be controlled by driving mechanisms such as an air cylinder, the telescopic clamp can also be controlled by driving mechanisms such as the air cylinder, during work, the telescopic clamp clamping bag body is broken into a bottom bag due to the fact that the bottom of the telescopic clamp clamping bag body is annularly cut, and then the clamped bottom bag is transferred to the bag bottom storage bin under the driving of the movable operating rod.

Further preferably, miropowder automatic feeding device, scalable anchor clamps have 2 at least, along cyclic annular supporting seat circumference evenly distributed.

Preferably, a distributor is arranged between the discharge end of the auger conveying device and the material lifting mechanism of the micro powder automatic feeding device.

In a preferred embodiment, the micro powder automatic feeding device and the material lifting mechanism are bucket elevators.

Compared with the prior art, the utility model has the main advantages that:

the automatic micro powder feeding device can obviously save labor, can complete the automatic bag breaking, automatic collection, automatic feeding and transferring and other operations of micro powder, and has automatic operation, high production efficiency and high precision.

Drawings

FIG. 1 is a schematic structural view of an automatic micro powder feeding device according to an embodiment;

FIG. 2 is a schematic structural view of an auger conveying device in the automatic micro powder feeding device of the embodiment;

FIG. 3 is a schematic top view of a circular cutting blade set in the automatic micro powder feeding device according to the embodiment;

FIG. 4 is a schematic side view of a bottom bag catching mechanism in the automatic micro powder feeding device according to the embodiment;

FIG. 5 is a schematic top view of a bottom bag catching mechanism in the automatic micro powder feeding device according to the embodiment;

in the figure:

1-operation cabin 2-bag body 3-circular cutting bag breaking mechanism

4-material storage A5-auger conveying device 6-material lifting mechanism

7-material storage bin B8-circular cutting blade set 9-bottom-catching bag mechanism

10-bag bottom storage bin 11-movable operating rod 12-clamp

13-distributor 14-auger blade 15-blade

16-annular supporting seat 17-driving mechanism A18-driving mechanism B.

Detailed Description

The utility model is further described with reference to the following drawings and specific examples. It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. The following examples are conducted under conditions not specified, usually according to conventional conditions, or according to conditions recommended by the manufacturer.

As shown in fig. 1, the automatic micro powder feeding device of the embodiment includes an operation bin 1, a bag body 2, a circular cutting bag breaking mechanism 3, a bag bottom storage bin 10, a bottom bag catching mechanism 9, a material storage bin a4, an auger conveying device 5, a distributor 13, a material lifting mechanism 6 and a material storage bin B7.

The operation cabin 1 is used for supporting a bag body 2 filled with micro powder. The top end of the operation cabin 1 is provided with an opening for the bottom of the bag body 2 to enter the operation cabin 1.

The annular cutting bag breaking mechanism 3 is positioned in the operation bin 1 and is used for cutting off the bottom of the bag body 2. As shown in fig. 3, the circular cutting bag-breaking mechanism 3 comprises a circular cutting blade group 8 which can be penetrated by the bottom of the bag body 2 and can extend out of a blade 15 towards the center of a circle to form a circular cutting surface. The annular cutting blade set 8 is annular. After the bottom of the bag body 2 in the operation bin 1 penetrates through the annular middle part, the annular cutting blade group 8 stretches out the blade 15 towards the circle center to puncture and cut the bag body 2, and the bottom of the bag body 2 is broken to generate circular opening blanking.

The bag bottom storage bin 10 is independently arranged outside the operation bin 1. The bottom bag grabbing mechanism 9 can be extended into the operation bin 1 and used for grabbing bottom bags separated due to the bottom openings of the bag bodies 2 and transferring the bottom bags to the bag bottom storage bin 10. As shown in fig. 4 and 5, the bottom bag catching mechanism 9 includes an annular support base 16 located below the annular bag cutting and breaking mechanism 3 and through which the bottom of the bag body 2 can pass, the annular support base 16 is externally connected with a movable operating rod 11, the bottom end of the annular support base 16 is provided with 4 circumferentially and uniformly distributed retractable clamps 12, and each retractable clamp 12 is controlled by a driving mechanism B18 (which may be an air cylinder or the like). The movable operating rod 11 is controlled by a driving mechanism a17 (which may be an air cylinder or the like). When the bag bottom storage bin works, the telescopic clamp 12 extends out of the clamping bag body 2 towards the circle center, the bottom of the clamping bag body 2 is extended out by the blade 15 to be meshed with the bottom bag formed by the annular cutting of the broken opening, and then the clamped bottom bag is transferred to the bag bottom storage bin 10 under the driving of the movable operating rod 11.

The material storage bin A4 is positioned below the operation bin 1 and is used for containing the micro powder falling from the bottom of the bag body 2 due to the broken opening.

The feed end of the auger conveying device 5 is communicated with the discharge port at the bottom end of the material storage bin A4, the discharge end is connected with the material lifting mechanism 6 through the distributor 13, and the other end of the material lifting mechanism 6 is connected with the material storage bin B7. As shown in fig. 2, the pitch of the auger blades 14 of the auger conveying device 5 is not uniform, and may be gradually increased from the feeding end to the discharging end, or gradually decreased from the feeding end to the discharging end, or other non-uniform pitch distribution modes.

The material lifting mechanism 6 is a bucket elevator.

The miropowder automatic feeding device during operation of this embodiment, the bag body 2 of miropowder is equipped with is placed on open-top's operation storehouse 1, because the action of gravity, bag body 2 bottom is passed through in the opening gets into operation storehouse 1 and pass ring cutting blade group 8 and the cyclic annular supporting seat 16 of grabbing end bag mechanism 9 of ring cutting broken bag mechanism 3 in proper order, ring cutting blade group 8 stretches out blade 15 meshing ring cutting to the center and with the broken mouthful unloading of bag body 2 bottom, the miropowder drops to in the material warehouse A4, the end bag is grabbed the scalable anchor clamps 12 centre gripping that stretches out to the center in the end bag mechanism 9 simultaneously and is shifted to bag end warehouse 10 under the drive of portable action bars 11. The micro powder in the material storage bin A4 enters the auger conveying device 5 through a discharge hole at the bottom end of the material storage bin A4, the distance between auger blades 14 of the auger conveying device 5 is uneven so as to ensure the arch breaking effect, and the discharge of the auger conveying device 5 enters the material lifting mechanism 6 through the distributor 13 and is lifted to the material storage bin B7 to complete the feeding operation.

Furthermore, it should be understood that various changes and modifications can be made by one skilled in the art after reading the above description of the present invention, and equivalents also fall within the scope of the utility model as defined by the appended claims.

Claims (7)

1. The utility model provides a miropowder automatic feeding device which characterized in that includes:

the operation bin (1) is used for supporting the bag body (2) filled with the micro powder, and the top end opening of the operation bin (1) is used for allowing the bottom of the bag body (2) to enter the operation bin (1);

the circular cutting bag breaking mechanism (3) is positioned in the operation bin (1) and is used for cutting a bottom opening of the bag body (2) for blanking;

the material storage bin A (4) is positioned below the operation bin (1) and is used for containing micro powder falling due to the bottom opening of the bag body (2);

the auger conveying device (5) with uneven intervals of auger blades (14) has a feed end communicated with a discharge port at the bottom end of the material storage bin A (4), and a discharge end communicated with the material storage bin B (7) through a material lifting mechanism (6).

2. The automatic micro powder feeding device as claimed in claim 1, wherein the circular cutting bag breaking mechanism (3) comprises a circular cutting blade group (8) which can be used for the bottom of the bag body (2) to pass through and can extend out of the blade (15) towards the center of the circle to form a circular cutting surface.

3. The automatic micro powder feeding device according to claim 1 or 2, further comprising a bag bottom storage bin (10) and a bottom bag catching mechanism (9) which can extend into the operation bin (1) and is used for catching bottom bags separated due to the bottom openings of the bag bodies (2) and transferring the bottom bags to the bag bottom storage bin (10).

4. The automatic micro powder feeding device according to claim 3, wherein the bottom-catching bag mechanism (9) comprises an annular support base (16) which is positioned below the annular bag-breaking mechanism (3) and through which the bottom of the bag body (2) can pass, the annular support base (16) is externally connected with a movable operating rod (11), and the annular support base (16) is provided with a telescopic clamp (12).

5. The automatic micro powder feeding device as claimed in claim 4, wherein the number of the retractable clamps (12) is at least 2, and the retractable clamps are uniformly distributed along the circumferential direction of the annular support base (16).

6. The automatic micro powder feeding device according to claim 1, wherein a distributor (13) is further arranged between the discharge end of the auger conveying device (5) and the material lifting mechanism (6).

7. An automatic micro powder feeding device as claimed in claim 1 or 6, wherein the material lifting mechanism (6) is a bucket elevator.

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