CN212290589U - Bag feeding device - Google Patents

Abstract

The embodiment of the utility model discloses a bag feeding device, which comprises a bottom plate, wherein a vertical plate conveying assembly and a bag frame conveying assembly are arranged on the bottom plate, the vertical plate conveying assembly and the bag frame conveying assembly are mutually crossed in an oblique way, a bag rotating motor is arranged on the vertical plate conveying assembly, a bag clamping assembly is arranged on a driving shaft of the bag rotating motor, a bag frame assembly is arranged on the bag frame conveying assembly in a sliding way, and the bag clamping assembly clamps a prepared bag and rotates the bag to a specified angle through the bag rotating motor to be fed into the bag frame assembly; the utility model adopts a plurality of bags on the manual-imitating method, and overcomes the defect that the vacuum chuck is adopted to open.

Description

Bag feeding device

Technical Field

The embodiment of the utility model provides a go up bag technical field, concretely relates to go up bagging apparatus.

Background

The general opening method of the bag or the film cartridge is to open the bag or the film cartridge by using a vacuum chuck and then to hold the opening by using a corresponding opening mechanism. For such an opening manner, it is obviously necessary to construct a dedicated vacuum chuck and an opening holding mechanism, but since the conventional bag or film is thin, the opening is not easily realized by using the vacuum chuck, and the adjacent films are easily adsorbed together, so that the film cartridge is not easily opened, and therefore, the adsorption capacity of the vacuum system is difficult to determine a reasonable range according to the performance of the film cartridge. When the film bag needs to be subjected to bag feeding operation, particularly when a plurality of bags are subjected to bag feeding operation, since adjacent bag opening guide blocks are closely adjacent, if a conventional vacuum chuck and opening holding mechanism is used, it is substantially impossible to meet the above requirements due to the large structure of the apparatus.

Disclosure of Invention

Therefore, the embodiment of the utility model provides a go up bagging apparatus to solve among the prior art problem that vacuum chuck can not adapt to a plurality of adjacent very close bags and go on the operation of going up the bag.

In order to achieve the above object, the embodiments of the present invention provide the following technical solutions:

a bag feeding device comprises a bottom plate, wherein a vertical plate conveying assembly and a bag frame conveying assembly are mounted on the bottom plate, a bag pressing baffle mounted on the bottom plate is arranged on the side face of the vertical plate conveying assembly, the vertical plate conveying assembly and the bag frame conveying assembly are mutually oblique, a bag rotating motor is mounted on the vertical plate conveying assembly, a bag clamping assembly is mounted on a driving shaft of the bag rotating motor, a bag pressing plate is arranged opposite to the bag clamping assembly, and a bag frame assembly is mounted on the bag frame conveying assembly;

the bag clamping assembly clamps the prepared bag and rotates the bag to a specified angle through a bag rotating motor to be sent into the bag frame assembly.

As an optimized proposal of the utility model, the included angle between the vertical plate conveying component and the bag frame conveying component is 90 degrees.

As a preferred scheme of the utility model, riser conveying assembly includes fixed mounting and is in riser guide rail and setting on the bottom plate riser conveying motor to the side of the riser guide rail the cover is equipped with the riser bottom plate on the riser guide rail fixed mounting has the riser rack on the riser bottom plate, just the riser rack with riser conveying motor exports epaxial gear engagement and connects install the riser through the strengthening rib on the riser bottom plate, change a bag motor fixed mounting be in on the riser.

As an optimized scheme of the utility model, bag frame conveyor components includes fixed mounting and is in bag frame guide rail and setting on the bottom plate are in bag frame conveyer motor of bag frame guide rail side the cover is equipped with bag frame backing plate on the bag frame guide rail bag frame backing plate side fixed mounting has bag frame rack, bag frame rack with the epaxial gear engagement of bag frame conveyer motor output is connected, bag frame components is in through setting up spud on the bag frame backing plate is fixed assigned position department on the bag frame backing plate.

As an optimized scheme of the utility model, bag frame subassembly including be provided with the guide post corresponds the righting frame of locating hole be provided with a plurality of bag check side by side in the righting frame the higher authority part of bag check is provided with the sack guide block, be provided with the guide block tip on the sack guide block, correspond the position of guide block tip is in the top of bag check is provided with the unloading hole that is the V style of calligraphy, the bottom of bag check is provided with fixed mounting and is in blend stop on the righting frame.

As a preferred scheme of the present invention, the bag clamping assembly includes a bag clamping bracket fixedly mounted on the bag rotating motor, a suction cup bracket and a bag clamping diaphragm are fixedly mounted on the bag clamping bracket, an electromagnetic suction cup is fixedly mounted on the suction cup bracket, a right bag clamping plate is fixedly mounted on the bag clamping diaphragm, a left bag clamping plate is mounted on the right bag clamping plate through a bag clamping iron plate corresponding to the electromagnetic suction cup, the outer end of the bag clamping iron plate passes through the right bag clamping plate to be connected with the left bag clamping plate, a bag clamping guide plate is fixedly mounted in the bag inlet direction of the left bag clamping plate, and a sharp finger for keeping the bag opening in the opened state is fixedly mounted in the bag outlet direction of the right bag clamping plate;

after the electromagnetic chuck loses electricity, a bag gap is formed between the left bag clamping plate and the right bag clamping plate, after the electromagnetic chuck is electrified, the left bag clamping plate and the right bag clamping plate clamp the side of a bag to pull a film, and the left bag clamping plate and the right bag clamping plate are connected through a reset spring.

The utility model discloses an embodiment has following advantage:

the utility model discloses can go up a plurality of bags, a plurality of guide blocks are adjacent very near moreover, adopt general vacuum chuck to come the opening infeasible, the utility model discloses an adopt the imitative manual method to come the bag, overcome and adopt vacuum chuck to come the open-ended defect, the structure is succinct, compact, in addition the utility model discloses make the membrane bag be in the open mode all the time through sharp finger in the in-process of going up the bag, simple structure is changeing the last bag that bag motor drive's effect can not influence the membrane bag yet moreover, and the structure is succinct reliable.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structure, ratio, size and the like shown in the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by people familiar with the technology, and are not used for limiting the limit conditions which can be implemented by the present invention, so that the present invention has no technical essential significance, and any structure modification, ratio relationship change or size adjustment should still fall within the scope which can be covered by the technical content disclosed by the present invention without affecting the efficacy and the achievable purpose of the present invention.

Fig. 1 is a schematic view of the overall structure of an embodiment of the present invention;

fig. 2 is a schematic view of the overall structure of a bag feeding device according to an embodiment of the present invention;

FIG. 3 is a schematic structural view of a baseplate transport assembly according to an embodiment of the present invention;

FIG. 4 is a schematic structural view of a bag rack conveying assembly according to an embodiment of the present invention;

FIG. 5 is a schematic structural view of a bag clamping assembly according to an embodiment of the present invention;

fig. 6 is a schematic structural view of a bag holder assembly according to an embodiment of the present invention.

In the figure: 1-a bottom plate; 3-a vertical plate conveying assembly; 4-a bag holder transport assembly; 5-bag turning motor; 6-bag clamping component; 7-a bag holder assembly; 8-bag pressing baffle; 9-pressing a bag plate;

301-vertical plate guide rail; 302-vertical plate conveying motor; 303-vertical plate bottom plate; 304-riser rack; 305-reinforcing ribs; 306-a vertical plate;

401-bag holder rail; 402-bag holder conveying motor; 403-bag holder backing plate; 404-bag holder rack; 405-spuds;

601-bag holder; 602-a suction cup holder; 603-bag clamping transverse plates; 604-an electromagnetic chuck; 605-right bag clamping plate; 606-clamping the iron plate; 607-left bag clamping plate; 608-bag clamping guide plate; 609-tip finger;

701-supporting frames; 702-a bag grid; 703-a bag opening guide block; 704-a guide block tip; 705-guide port; 706-blanking hole; 707-barrier strip.

Detailed Description

The present invention is described in terms of specific embodiments, and other advantages and benefits of the present invention will become apparent to those skilled in the art from the following disclosure. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The film tube in this embodiment is actually formed by folding a film in half, pulling it out from a film roll, and then sealing the non-folded side. The opening device in this embodiment aims to always open the membrane cartridge in a simple and reliable manner.

As shown in fig. 1 to 6, the utility model provides a go up bagging apparatus, including bottom plate 1 install riser conveyor components 3 and bag frame conveyor components 4 on bottom plate 1, and be equipped with to install riser conveyor components 3 side pressure bag baffle 8 on the bottom plate 1, riser conveyor components 3 and bag frame conveyor components 4 are criss-cross each other, install on the riser conveyor components 3 and change a bag motor 5, and change and install bag clamping components 6 in the drive shaft of bag motor 5 it is provided with pressure bag board 9 to press opposite face of bag clamping components 6, install bag frame components 7 on the bag frame conveyor components 4, bag clamping components 6 will be made the bag centre gripping and will be changed bag motor 5 and rotate the bag to appointed angle and send into bag frame components 7.

The utility model discloses in at first pull out a membrane section of thick bamboo from the membrane book through system bag subassembly 2, through the side seal again, end seals and cut off the back and form complete membrane bag, later send into the bag frame subassembly 7 on the bag frame conveying subassembly 4 after transporting fashioned membrane bag and overturning through riser conveying subassembly 3 to bag frame conveying subassembly 4 adjusts the position of bag frame subassembly 7 according to the demand.

In the aforesaid, in order to facilitate the positional relationship and the contained angle between adjustment riser conveying component 3 and bag frame conveying component 4, set up the contained angle between riser conveying component 3 and the bag frame conveying component 4 to 90.

In the present embodiment, the bag-making unit 2 is not particularly limited as long as the film roll can be produced into a film-forming bag in a line production operation. After the film bags are produced in the form of flowing water, bag feeding operation is required to be performed according to a set period.

The bag feeding operation mainly comprises two parts, namely the transfer and the turning of the film bags and the transfer of the bag lattices and the bag lattice entering, wherein the transfer and the turning of the film bags are mainly completed by a vertical plate conveying assembly 3 and a bag turning motor 5 arranged on the vertical plate conveying assembly 3; the bag lattice transferring and entering lattice is completed mainly by the relative driving of the bag frame conveying assembly 4 and the bag transferring motor 5. The specific operation of these two parts is further described below.

In order to more clearly illustrate the whole bag feeding process, the composition and the related connection relationship of the vertical plate conveying assembly 3, the bag holder conveying assembly 4 and the bag holder assembly 7 need to be described first.

The utility model discloses in, riser transport assembly 3 is including fixed mounting riser guide 301 and the setting on bottom plate 1 are in riser conveying motor 302 to the side of riser guide 301, for the height of adaptation riser guide 301, riser conveying motor 302 passes through support fixed mounting on bottom plate 1 the cover is equipped with riser bottom plate 303 on riser guide 301, ensures that riser bottom plate 303 can slide along riser guide 301's direction, in order to further improve gliding effect, can set up with riser guide 301 complex slider in riser bottom plate 303 and riser guide 301's contact department, also can improve its slip effect through other modes.

The vertical plate base plate 303 is fixedly provided with a vertical plate rack 304, the vertical plate rack 304 is meshed with a gear on an output shaft of the vertical plate conveying motor 302, when the vertical plate conveying motor 302 is started, the vertical plate conveying motor 302 can be driven to rotate in two different directions along the output shaft in forward rotation or reverse rotation, the output shaft can drive the gear arranged on the output shaft to rotate after rotating, and then the vertical plate rack 304 is driven to do linear motion, so that power is provided to enable the vertical plate base plate 303 to slide along the vertical plate guide rail 301.

The vertical plate 306 is mounted on the vertical plate bottom plate 303 through a reinforcing rib 305, and the bag rotating motor 5 is fixedly mounted on the vertical plate 306. After changeing a bag motor 5 and rotating, can drive to set up and also take place corresponding rotation at the bag subassembly 6 that presss from both sides on changeing a bag motor 5 drive shaft to make the membrane bag of being pressed from both sides the centre gripping of bag subassembly 6 be in different angles, in order to adapt to the different position demands that get into bag lattice subassembly 7.

The bag clamping assembly 6 comprises a bag clamping support 601 fixedly mounted on the bag rotating motor 5, a suction cup support 602 and a bag clamping transverse plate 603 are fixedly mounted on the bag clamping support 601, an electromagnetic suction cup 604 is fixedly mounted on the suction cup support 602, a right bag clamping plate 605 is fixedly mounted on the bag clamping transverse plate 603, a left bag clamping plate 607 is mounted on the right bag clamping plate 605 corresponding to the electromagnetic suction cup 604 through a bag clamping iron plate 606, the outer end of the bag clamping iron plate 606 penetrates through the right bag clamping plate 605 to be connected with the left bag clamping plate 607, a bag clamping guide plate 608 is fixedly mounted on the left bag clamping plate 607 in a bag inlet direction, and a sharp finger 609 for keeping a bag opening in a spreading state is fixedly mounted on the right bag clamping plate 605 in a bag outlet direction.

After the electromagnetic chuck 604 is powered off, a bag gap is formed between the left bag clamping plate 607 and the right bag clamping plate 605, when the electromagnetic chuck 604 is powered on, the left bag clamping plate 607 and the right bag clamping plate 605 clamp the side edge of a bag for film drawing, and the left bag clamping plate 607 is connected with the right bag clamping plate 605 through a return spring.

The specific operation of the bag holder assembly 6 is further illustrated as follows:

a bag passing gap is formed between the left bag clamping plate 607 and the right bag clamping plate 605, a formed film bag is arranged in the bag passing gap, when the electromagnetic chuck 604 loses power, the left bag clamping plate 607 and the right bag clamping plate 605 are loosened under the action of a return spring and the like, so that the film bag is in a gap state, the film bag enters the bag holder assembly, and when the next bag feeding period starts, the electromagnetic chuck 604 loses power firstly, so that the left bag clamping plate 607 and the right bag clamping plate 605 are in a gap state; when the electromagnetic chuck 604 is powered on, the left bag clamping plate 607 and the right bag clamping plate 605 are clamped under the action of the electromagnetic attraction, so that the bag clamping state is realized, and the film bag is in different angles and positions through the rotation of the bag rotating motor 5 when the bag clamping state is realized, so as to meet the requirement of entering the bag holder assembly 7.

In this embodiment, the working principle of the bag holder conveying assembly 4 is substantially the same as that of the vertical plate conveying assembly 3, specifically: bag frame conveyor components 4 is including fixed mounting bag frame guide rail 401 and setting on the bottom plate 1 are in bag frame conveying motor 402 of bag frame guide rail 401 side the cover is equipped with bag frame backing plate 403 on the bag frame guide rail 401 bag frame backing plate 403 side fixed mounting has bag frame rack 404, bag frame rack 404 with the epaxial gear engagement of bag frame conveying motor 402 output is connected.

When the bag holder conveying motor 402 is started, the bag holder conveying motor 402 can be driven to rotate in two different directions in the output shaft direction respectively in forward rotation or reverse rotation, the output shaft can drive the gear arranged on the output shaft to rotate after rotating, and then the bag holder rack 404 is driven to move linearly, so that the bag holder base plate 403 can slide along the bag holder guide rail 401 by providing power.

The bag holder assembly 7 is fixed at a designated position on the bag holder backing plate 403 by a positioning pile 405 provided on the bag holder backing plate 403. The bag holder assembly 7 comprises a support frame 701 provided with positioning holes corresponding to the positioning piles 405, a plurality of bag grids 702 are arranged in the support frame 701 in parallel, a bag mouth guide block 703 is arranged at an entrance at the top of each bag grid 702, a guide block pointed end 704 is arranged on each bag mouth guide block 703, a V-shaped blanking hole 706 is arranged at the top of each bag grid 702 corresponding to the guide block pointed end 704, guide openings 705 for guiding bags are formed at the top of the support frame 701 for film bags to be sequentially sleeved on the blanking holes 706, and blocking strips 707 fixedly mounted on the support frame 701 are arranged at the bottoms of the bag grids 702.

The utility model discloses can go up a plurality of bags, a plurality of guide blocks are adjacent very near moreover, adopt general vacuum chuck to come the opening infeasible, the utility model discloses an adopt the imitative manual method to come the bag, overcome and adopt vacuum chuck to come the open-ended defect, the structure is succinct, compact, in addition the utility model discloses make the membrane bag be in the open mode all the time through sharp finger in the in-process of going up the bag, simple structure is changeing the last bag that bag motor drive's effect can not influence the membrane bag yet moreover, and the structure is succinct reliable.

Although the invention has been described in detail with respect to the general description and the specific embodiments, it will be apparent to those skilled in the art that modifications and improvements can be made based on the invention. Therefore, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (6)

1. A bag feeding device is characterized by comprising a bottom plate (1), wherein a vertical plate conveying assembly (3) and a bag frame conveying assembly (4) are installed on the bottom plate (1), a bag pressing baffle (8) installed on the bottom plate (1) is arranged on the side face of the vertical plate conveying assembly (3), the vertical plate conveying assembly (3) and the bag frame conveying assembly (4) are mutually crossed in an oblique mode, a bag rotating motor (5) is installed on the vertical plate conveying assembly (3), a bag clamping assembly (6) is installed on a driving shaft of the bag rotating motor (5), a bag pressing plate (9) is arranged opposite to the bag clamping assembly (6), and a bag frame assembly (7) is installed on the bag frame conveying assembly (4);

the bag clamping assembly (6) clamps the prepared bag and rotates the bag to a specified angle through the bag rotating motor (5) to be sent into the bag rack assembly (7).

2. A bag feeding device according to claim 1, characterized in that the angle between the vertical plate conveyor assembly (3) and the bag holder conveyor assembly (4) is 90 °.

3. The bagging device according to claim 2, wherein the vertical plate conveying assembly (3) comprises a vertical plate guide rail (301) fixedly mounted on the bottom plate (1) and a vertical plate conveying motor (302) arranged on the side surface of the vertical plate guide rail (301), a vertical plate bottom plate (303) is sleeved on the vertical plate guide rail (301), a vertical plate rack (304) is fixedly mounted on the vertical plate bottom plate (303), the vertical plate rack (304) is meshed with a gear on an output shaft of the vertical plate conveying motor (302) and connected with the gear, a vertical plate (306) is mounted on the vertical plate bottom plate (303) through a reinforcing rib (305), and the bag rotating motor (5) is fixedly mounted on the vertical plate (306).

4. The bag feeding device according to claim 2, wherein the bag holder conveying assembly (4) comprises a bag holder guide rail (401) fixedly mounted on the bottom plate (1) and a bag holder conveying motor (402) arranged on the side of the bag holder guide rail (401), a bag holder backing plate (403) is sleeved on the bag holder guide rail (401), a bag holder rack (404) is fixedly mounted on the side of the bag holder backing plate (403), the bag holder rack (404) is meshed with a gear on an output shaft of the bag holder conveying motor (402) and is connected with the bag holder backing plate (403), and the bag holder assembly (7) is fixed at a designated position on the bag holder backing plate (403) through a positioning pile (405) arranged on the bag holder backing plate (403).

5. A bag feeding device according to claim 4, wherein the bag holder assembly (7) comprises a support frame (701) provided with positioning holes corresponding to the positioning piles (405), a plurality of bag grids (702) are arranged in parallel in the support frame (701), a bag opening guide block (703) is arranged on the upper portion of each bag grid (702), a guide block pointed end (704) is arranged on each bag opening guide block (703), a V-shaped blanking hole (706) is arranged at the top of each bag grid (702) corresponding to the position of the guide block pointed end (704), and a blocking strip (707) fixedly installed on the support frame (701) is arranged at the bottom of each bag grid (702).

6. The bag feeding device according to claim 1, wherein the bag clamping assembly (6) comprises a bag clamping bracket (601) fixedly mounted on the bag rotating motor (5), a sucking disc bracket (602) and a bag clamping transverse plate (603) are fixedly mounted on the bag clamping bracket (601), an electromagnetic sucking disc (604) is fixedly mounted on the sucking disc bracket (602), a right bag clamping plate (605) is fixedly mounted on the bag clamping transverse plate (603), a left bag clamping plate (607) is mounted on the right bag clamping plate (605) through a bag clamping iron plate (606) at a position corresponding to the electromagnetic sucking disc (604), the outer end of the bag clamping iron plate (606) penetrates through the right bag clamping plate (605) to be connected with the left bag clamping plate (607), a bag clamping guide plate (608) is fixedly mounted on the left bag clamping plate (607) in a bag feeding direction, and a sharp finger (609) for keeping a bag opening state is fixedly mounted on the right bag clamping plate (605) in a bag discharging direction (ii) a

After the electromagnetic chuck (604) loses power, a bag passing gap is formed between the left bag clamping plate (607) and the right bag clamping plate (605), when the electromagnetic chuck (604) is powered on, the left bag clamping plate (607) and the right bag clamping plate (605) clamp the side of a bag to be subjected to film drawing, and the left bag clamping plate (607) and the right bag clamping plate (605) are connected through a return spring.

Images