CN211685940U

CN211685940U - Paper holder feeding device

Info

Publication number: CN211685940U
Application number: CN201922363263.XU
Authority: CN
Inventors: 柳先知; 范常文; 齐明辉; 翟西平
Original assignee: Qingdao Haikejia Intelligent Equipment Technology Co ltd
Current assignee: Qingdao Haikejia Intelligent Technology Co ltd
Priority date: 2019-12-25
Filing date: 2019-12-25
Publication date: 2020-10-16
Anticipated expiration: 2029-12-25

Abstract

A paper tray delivery device comprising: the star-shaped double-side material pushing device (A) is used for pushing the materials and the support boxes alternately forwards; and a box pushing and shaping mechanism (B) for pushing the support box forwards into a position buckled with the material and pressing and correcting the edge of the support box; and a belt conveyor (C) for conveying the materials loaded into the tray forward; the star-shaped double-side material pushing device (A) is positioned above the box pushing and shaping mechanism (B), and the belt conveyor (C) is positioned below the box pushing and shaping mechanism (B). The utility model has the advantages that: the design that a quadrangular star plate is matched with a guide rail, and a hexagonal rotating wheel is meshed with a bearing fixing plate and a rotating bearing body is adopted, so that the double guide rails are longitudinally and transversely matched to finish the operation of an arc track; the arc-shaped track is matched with a pushing scraper plate and a contour plate to carry out reciprocating pushing conveying, so that high efficiency and smooth conveying are realized; the accurate annular conveying of support box can be realized to with material looks lock, realize detaining box packing fast, it is efficient, simple structure.

Description

Paper holder feeding device

Technical Field

The utility model relates to a paper holds in palm puts in device for the paper holds in the palm puts in the whole limit, and is supplementary to hold in the palm the paper and carry with the material cooperation. Belongs to the field of packaging machinery.

Background

The paper support is used for independently packaging materials similar to blocks or cylinders, such as fine dried noodles, leisure food and the like, the materials are placed into the paper support, the paper support is shaped, and then plastic packaging is carried out. The disadvantages are that: can not be directly matched with materials after being buckled and supported, and has low efficiency and high cost.

Disclosure of Invention

The utility model aims at providing a paper holds in palm puts in device to solve the above-mentioned problem that prior art exists.

The technical scheme of the utility model is that: a paper tray delivery device, comprising: the star-shaped double-side material pushing device is used for pushing the materials and the support boxes alternately forwards; the box pushing and shaping mechanism is used for pushing the support box forwards into a position buckled with the material and pressing and correcting the edge of the support box; the belt conveyor is used for outputting the materials loaded into the support box forwards; the star-shaped double-side material pushing device is positioned above the box pushing and shaping mechanism, and the belt conveyor is positioned below the box pushing and shaping mechanism.

The utility model has the advantages that: the design that a quadrangular star plate is matched with a guide rail, and a hexagonal rotating wheel is meshed with a bearing fixing plate and a rotating bearing body is adopted, so that the double guide rails are longitudinally and transversely matched to finish the operation of an arc track; the arc-shaped track is matched with a pushing scraper plate and a contour plate to carry out reciprocating pushing conveying, so that high efficiency and smooth conveying are realized; the accurate annular conveying of support box can be realized to with material looks lock, realize detaining box packing fast, it is efficient, simple structure.

Drawings

Fig. 1 is a schematic overall structure diagram (a-a cross-sectional view of fig. 3) of an embodiment of the present invention;

FIG. 2 is a cross-sectional view B-B of FIG. 3;

FIG. 3 is a right side view of FIG. 1;

fig. 4 is a cross-sectional view C-C of fig. 3.

Detailed Description

Referring to fig. 1-4, an embodiment of the present invention provides a paper holder feeding device, including: the star-shaped double-side material pushing device A is used for pushing the materials and the support boxes alternately forwards; the box pushing and shaping mechanism B is used for pushing the support box forwards into a position buckled with the material and pressing and correcting the edge of the support box; the belt conveyor C is used for outputting the materials loaded into the tray box forwards; the star-shaped double-side material pushing device A is positioned above the box pushing and shaping mechanism B, and the belt conveyor C is positioned below the box pushing and shaping mechanism B.

The star-shaped double-side pushing device A comprises an n-shaped frame consisting of a top plate A2 and two pushing device side plates A1, a top main shaft A4 is supported on the top plate A2 through two bearing seats A21, and a driving synchronous belt wheel A3 is arranged in the middle of the top main shaft A4; a main shaft bracket A20 is connected to the lower surface of the top plate A2, a main shaft A11 is rotatably mounted on the main shaft bracket A20, a driven synchronous pulley A19 is mounted in the middle of the main shaft A11, and a synchronous belt A22 penetrates through the hollow middle of the top plate A2 and is connected between the driving synchronous pulley A3 and the driven synchronous pulley A19; the inner sides of the two side plates A1 of the material pushing device are respectively provided with a symmetrical horizontal guide rail A7, the inner side of the horizontal guide rail A7 is provided with a vertical guide rail A12 in a sliding way through a horizontal slider A15, the inner side of the vertical guide rail A12 is provided with an oblong groove plate A8 in a sliding way, the front end of the oblong groove plate A8 is connected with the top end of an L-shaped support plate A16, the lower part and the front part of the middle part of the bottom end of the support plate A16 are respectively connected with a pushing plate A17 and a profiling plate A18, and the oblong groove plates A8 at the two sides are respectively in transmission connection with the driven synchronous pulley A19 through a transmission mechanism which can drive the oblong groove plates A8 at the two sides to alternately move along an oblong track.

The two transmission mechanisms are identical and are arranged in a bilateral symmetry mode, each transmission mechanism comprises a fulcrum shaft rotating bearing A9, a hexagonal rotating wheel A10 and a main shaft A11, the long circular groove plate A8 is long circular, an long circular groove A81 is arranged on the inner side of the long circular groove plate A8, and a plurality of fulcrum shaft rotating bearings A9 are arranged on the long axis in the long circular groove at equal intervals; the outer sides of the two long circular groove plates A8 are respectively connected to the corresponding vertical guide rails A12 in a sliding manner through vertical sliders A14; positioning bearings corresponding to the oblong grooves in the oblong groove plates A8 are arranged at two ends of the main shaft A11, a hexagonal rotating wheel A10 is respectively arranged on the main shaft A11 at the inner sides of the positioning bearings, and notches of the hexagonal rotating wheel A10 are meshed with a plurality of fulcrum shaft rotating bearings A9; the positions of the oblong groove plates A8 on both sides differ by half the circumference of the oblong track.

The fulcrum rotary bearing A9 and the hexagonal rotary wheel A10 are respectively replaced by an oblong outer toothed ring and a gear, the outer contour of the oblong outer toothed ring is the same as the inner periphery of the oblong groove, and the gear is meshed with the outer toothed ring.

The sliding connection structure of the vertical guide rail A12 and the horizontal guide rail A7 is as follows: the outer side of the vertical guide rail A12 is connected to the inner side of a four-corner star disk A13, and the outer side of the four-corner star disk A13 is connected with the horizontal guide rail A7 in a sliding mode through a horizontal sliding block A15.

The front end and the rear end of the n-shaped frame are respectively connected with an end plate 6; the top of the inner side of the n-shaped frame is connected with a wallboard fixing rib 5.

The box pushing and shaping mechanism B comprises a straightening plate B1, a cylinder push plate B2, a blank pressing cylinder B3, a cylinder connecting seat B4, a connecting plate B5, a forward pushing cylinder B6, a shaping mechanism side plate B7, a fixed connecting plate B8 and a fixed plate B9, and the top ends of two shaping mechanism side plates B7 are respectively connected with the bottom edges of two pushing device side plates A1 through a fixed connecting plate B8; three fixing plates B9 are respectively fixed on the two shaping mechanism side plates B7 and used for connecting the box pushing and shaping mechanism B with the belt conveyor C; a forward push cylinder B6 is fixed on a shaping mechanism side plate B7 on the left through screws, two straightening plates B1 are respectively fixed on two shaping mechanism side plates B7, two cylinder connecting seats B4 are respectively fixed on the outer ends of two shaping mechanism side plates B7, two edge pressing cylinders B3 are respectively fixed on two cylinder connecting seats B4, and two cylinder push plates B2 are respectively and fixedly connected at the front ends of the two cylinder connecting seats B4 through two connecting plates B5.

The belt conveyor C is conventional.

The utility model discloses a working process:

the motor drives the top main shaft A4 to rotate, the synchronous belt wheel A3 which rotates along with the top main shaft A4 drives the synchronous belt wheel A19 to rotate, the synchronous belt wheel A19 drives the main shaft A11 to rotate, the main shaft A11 drives the hexagonal rotating wheel A10 to rotate, each tooth on the hexagonal rotating wheel A10 is meshed with the fulcrum shaft rotating bearing A9, under the matching linkage of the vertical guide rail A12, the horizontal guide rail A7, the vertical sliding block A14 and the horizontal sliding block A15, the hexagonal rotating wheel A10 is meshed with the fulcrum shaft rotating bearing A9 to drive the long circular groove plate A8 to move along the long circular track, the supporting plate A16, the pushing and scraping plate A17 and the pressing plate A18 which are fixed on the long circular groove plate A8 move along the same track, the same symmetrical parts do opposite movement, at the moment, the belt conveyor C pushes the material to the lower part of the supporting box E, the forward pushing cylinder B6 pushes the supporting box into a proper position to be buckled with the material D cylinder, and the pushing plate B2 acts in, two blank pressing cylinders B3 push the blank pressing forwards towards the middle at the same time to correct the crease of the support box E, then under the reciprocating motion of a push scraping plate A17, when a push scraping plate A17 just starts to push a material D and a support box E forwards, the blank pressing cylinder B3 is retracted, a push scraping plate A17 starts to push forwards, the material D under the support box and the support box is pushed to the front end from the rear end in a circulating reciprocating mode, in the process that the press plate A18 pushes the support box and the material D forwards through the push scraping plate A17, the support box is pressed flatly in an auxiliary mode, the support box and the material are corrected by a straightening plate B1 to be not deviated and not warped, and are conveyed to the next process by a belt conveyor C.

Claims

1. A paper tray delivery device, comprising: the star-shaped double-side material pushing device (A) is used for pushing the materials and the support boxes alternately forwards; and a box pushing and shaping mechanism (B) for pushing the support box forwards into a position buckled with the material and pressing and correcting the edge of the support box; and a belt conveyor (C) for conveying the materials loaded into the tray forward; the star-shaped double-side material pushing device (A) is positioned above the box pushing and shaping mechanism (B), and the belt conveyor (C) is positioned below the box pushing and shaping mechanism (B).

2. A paper tray throwing device according to claim 1, characterized in that said star-shaped double-sided pusher (a) comprises an n-shaped frame consisting of a top plate (a 2) and two pusher side plates (a 1), a top spindle (a 4) is supported on the top plate (a 2) by two bearing seats (a 21), and a driving synchronous pulley (A3) is mounted in the middle of the top spindle (a 4); a main shaft bracket (A20) is connected to the lower surface of the top plate (A2), a main shaft (A11) is rotatably installed on the main shaft bracket (A20), a driven synchronous pulley (A19) is installed in the middle of the main shaft (A11), and a synchronous belt (A22) penetrates through the hollow middle of the top plate (A2) and is connected between the driving synchronous pulley (A3) and the driven synchronous pulley (A19); the inner sides of two side plates (A1) of the material pushing device are respectively provided with a horizontal guide rail (A7) which are symmetrical mutually, the inner side of each horizontal guide rail (A7) is provided with a vertical guide rail (A12) in a sliding way through a horizontal slider (A15), the inner side of each vertical guide rail (A12) is provided with an oblong groove plate (A8) in a sliding way, the front end of each oblong groove plate (A8) is connected with the top end of an L-shaped support plate (A16), the lower part and the front part of the middle part of the bottom end of each support plate (A16) are respectively connected with a pushing plate (A17) and a press plate (A18), and the oblong groove plates (A8) at two sides are respectively in transmission connection with the driven synchronous belt wheel (A19) through a transmission mechanism which can drive the oblong groove plates (A8) at two sides to alternately move along an oblong track.

3. A sheet dispenser according to claim 2, wherein two of said actuators are identical and arranged symmetrically from side to side, each actuator comprising a fulcrum rotary bearing (a 9), a hexagonal rotating wheel (a 10) and a spindle (a 11), said oblong recess plate (A8) being oblong and having an oblong recess (a 81) on the inside thereof, a plurality of fulcrum rotary bearings (a 9) being mounted in the oblong recess at equal intervals along the long axis thereof; the outer sides of the two long circular groove plates (A8) are respectively connected on the corresponding vertical guide rail (A12) in a sliding way through a vertical slider (A14); positioning bearings corresponding to the oblong grooves on the inner sides of the oblong groove plates (A8) are arranged at two ends of the main shaft (A11), a hexagonal rotating wheel (A10) is respectively arranged on the main shaft (A11) on the inner sides of the positioning bearings, and notches of the hexagonal rotating wheels (A10) are meshed with a plurality of fulcrum shaft rotating bearings (A9); the positions of the oblong groove plates (A8) on both sides are different by half the circumference of the oblong track.

4. A paper holder dispensing device as claimed in claim 3, characterized in that said fulcrum rotary bearing (a 9) and hexagonal rotary wheel (a 10) are replaced by an oblong external toothed ring having the same outer contour as the inner circumference of said oblong recess, and a gear wheel engaging with said external toothed ring.

5. A dispenser as claimed in claim 2, wherein the sliding connection between the vertical rail (a 12) and the horizontal rail (a 7) is: the outer side of the vertical guide rail (A12) is connected to the inner side of a four-corner star disk (A13), and the outer side of the four-corner star disk (A13) is connected with the horizontal guide rail (A7) in a sliding mode through a horizontal sliding block (A15).

6. A paper tray delivery device according to claim 2, wherein an end plate (6) is connected to each of the front and rear ends of the n-shaped frame; the top of the inner side of the n-shaped frame is connected with a wallboard fixing rib (5).

7. The paper holder throwing device according to claim 1, wherein the box pushing and shaping mechanism (B) comprises a straightening plate (B1), a cylinder push plate (B2), a blank pressing cylinder (B3), a cylinder connecting seat (B4), a connecting plate (B5), a forward pushing cylinder (B6), shaping mechanism side plates (B7), a fixed connecting plate (B8) and a fixed plate (B9), and the top ends of the two shaping mechanism side plates (B7) are connected with the bottom edges of the two pushing device side plates (A1) through one fixed connecting plate (B8); a plurality of fixing plates (B9) are respectively fixed on the two shaping mechanism side plates (B7) and are used for connecting the box pushing and shaping mechanism (B) and the belt conveyor (C) together; a forward push cylinder (B6) is fixed on a shaping mechanism side plate (B7) on the left through screws, two straightening plates (B1) are fixed on two shaping mechanism side plates (B7) respectively, two cylinder connecting seats (B4) are fixed on the outer ends of two shaping mechanism side plates (B7) respectively, two blank pressing cylinders (B3) are fixed on two cylinder connecting seats (B4) respectively, and two cylinder push plates (B2) are fixedly connected to the front ends of the two cylinder connecting seats (B4) through two connecting plates (B5) respectively.