CN210436306U

CN210436306U - Full-automatic chopstick printing machine

Info

Publication number: CN210436306U
Application number: CN201920846739.2U
Authority: CN
Inventors: 刘郑美
Original assignee: Fujian Fuzhou West Honest Arts & Crafts Co ltd
Current assignee: Fujian Fuzhou West Honest Arts & Crafts Co ltd
Priority date: 2019-06-06
Filing date: 2019-06-06
Publication date: 2020-05-01
Anticipated expiration: 2029-06-06

Abstract

The utility model relates to a full-automatic chopsticks open printing machine, including the transport piece that is used for the transverse transport chopsticks, set up in the feed spare of the input of transport piece and set up in the cutting ring piece of carrying the output of piece, still include guiding mechanism, guiding mechanism includes pivoted guide piece and the locating part that is located the guide piece circumference outside, form the guide channel who is used for guiding single chopsticks through the circular arc route between guide piece and the locating part, the entry setting of guide channel is at feeding mechanism's output, the cutting ring piece sets up the one side at guide channel, and the center of rotation of cutting ring piece is located the arc heart of guide channel. The utility model is provided with the guide channel, so that the chopsticks can automatically rotate when passing through the ring-cutting blade, and the annular grooves are processed on the chopsticks; the spiral material placing groove rotating body can not only axially convey chopsticks, but also automatically align the chopsticks, and ensure the consistent positions of the ring grooves; the automatic conveying, aligning and circular cutting of the chopsticks can be realized, and the production efficiency is improved.

Description

Full-automatic chopstick printing machine

Technical Field

The utility model relates to a chopsticks processing equipment technical field, in particular to full-automatic chopsticks marking machine.

Background

The surfaces of the existing chopsticks are generally very smooth, and the existing chopsticks are difficult to clamp when clamping foods such as peanuts, soybeans and the like. In order to improve the situation, some annular grooves are generally arranged at the positions where the chopsticks clamp the vegetables, for example, the Chinese utility model patent with the application number of 201721083277.0 discloses chopsticks convenient for clamping the vegetables, and arc-shaped grooves are vertically arranged at one side of the chopsticks for clamping the vegetables. In the prior art, the grooving process is generally operated manually, and the position and the depth of the circular groove are not easy to control, so that the attractiveness of the chopsticks is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a full-automatic chopsticks division machine improves the stability of quality and the production efficiency of product.

The above object of the present invention can be achieved by the following technical solutions: full-automatic chopsticks open printing machine, including the transport piece that is used for the lateral transport chopsticks, set up in the feed spare of the input of transport piece and set up in the cutting ring piece of the output of transport piece, still include guiding mechanism, guiding mechanism includes pivoted guide and the locating part that is located the guide circumference outside, form the guide way that is used for guiding single chopsticks through the circular arc route between guide and the locating part, guide way's entry sets up the output at feeding mechanism, cutting ring piece sets up in one side of guide way, and cutting ring piece's rotation center is located the arc center of guide way.

Preferably, the guide is a cylindrical body, and a surface of the stopper facing the guide direction is an arc surface concentrically provided with the guide.

Preferably, the rotation axis of the ring cutting blade coincides with the rotation axis of the guide member, and a plurality of ring cutting blades are distributed at intervals in the axial direction.

Preferably, the cutting radius of the circular cutting blade is larger than the radius of the guide member and smaller than the radius of the circular arc surface of the stopper.

Preferably, a blocking member for blocking the radial movement of the chopsticks is arranged at the outer side of the circumference of the ring cutting blade, and the blocking member is provided with a circular arc blocking surface concentric with the ring cutting blade.

Preferably, the conveying member comprises a rotating body for axially conveying the chopsticks, and the rotating body is provided with a material placing groove which is spirally wound on the circumferential surface of the rotating body.

One part of the transverse chopsticks is positioned in the material placing groove, and when the rotating body rotates, the material placing groove rotates spirally, so that the chopsticks are pushed to move axially.

Preferably, the number of the rotating bodies is at least two, two adjacent rotating bodies rotate synchronously and in the same direction, and the spiral directions of the material accommodating grooves are the same and the thread pitches are the same.

Preferably, one side of the rotating body is provided with an aligning piece for preventing the chopsticks from moving along the tangential direction of the rotating body, and the aligning piece and the ring-cutting blade are positioned on the same side of the rotating body.

When the rotating body rotates, the spiral material placing groove does not tightly drive the chopsticks to move in the axial direction, and the chopsticks are pushed to move in the tangential direction through friction force, so that the aligning piece is arranged on one side of the rotating body, the chopsticks are in contact with the aligning piece after moving in the tangential direction, the end parts of the chopsticks are aligned, and the annular cutting blade is guaranteed to be grooved at the same part of the chopsticks.

Preferably, the feeding part comprises a bottom plate, the bottom plate is obliquely arranged above the conveying part, a transverse rotating shaft is arranged above the surface of the bottom plate, a rotating part for upwards stirring the chopsticks is arranged on the rotating shaft, and a gap for allowing a single chopstick to pass through is formed between the rotating part and the bottom plate.

When the chopsticks enter the conveying piece from the bottom plate, the chopsticks pass through the gap between the rotating and poking piece and the bottom plate, at the moment, the rotating and poking piece rotates and pokes the redundant chopsticks upwards, thereby ensuring that a single chopstick enters the conveying piece through the gap,

preferably, the bottom plate is installed on the frame through the adjusting component to adjust the interval of bottom plate and rotary member.

The utility model discloses following beneficial effect has:

1. the utility model is provided with the guide channel, so that the chopsticks can automatically rotate when passing through the ring-cutting blade, and the annular grooves are processed on the chopsticks;

2. the spiral material placing groove rotating body can not only axially convey chopsticks, but also move the chopsticks in the tangential direction, so that the chopsticks are automatically aligned, and the positions of the ring grooves are consistent;

3. the utility model discloses can realize that the automation of chopsticks is carried, is alignd and the circular cutting, improve production efficiency.

Drawings

Fig. 1 is a side view of an embodiment of the invention;

fig. 2 is a top view of an embodiment of the invention;

in the figure: 1-frame, 2-feeding part, 201-bottom plate, 3-rotating shaft, 4-rotating stirring part, 5-conveying part, 501-material placing groove, 6-guiding part, 7-limiting part, 8-guiding channel, 9-circular cutting blade, 10-blocking part, 11-adjusting component, 12-aligning part, 13-chopsticks and 14-blocking rod.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all the embodiments are protected by patent laws within the scope of the claims of the present invention.

Example (b): as shown in figures 1 and 2, the full-automatic chopstick marking machine comprises a frame, a conveying piece 5, a feeding piece 2 and a ring cutting blade 9, wherein the conveying piece 5 is rotatably arranged on the frame and conveys transversely arranged chopsticks along the axial direction. The feeding part 2 is arranged at the input end of the conveying part 5 and is positioned above the conveying part 5, the ring cutting blade 9 is positioned at the output end of the conveying part 5 and is rotatably arranged on the rack, and the rotating axis of the ring cutting blade 9 is parallel to the length direction of the chopsticks and is vertical to the rotating axis of the conveying part 5. The conveying member 5 and the ring-cutting blade 9 are driven to rotate by an independent motor.

The conveying member 5 comprises a rotating body for axially conveying the chopsticks, a material placing groove 501 is arranged on the rotating body, and the material placing groove 501 is spirally wound on the circumferential surface of the rotating body. The rotor quantity can be many, and the axis of rotation of two adjacent rotors is parallel, and the rotor is synchronous and syntropy rotate, and the helical direction of putting silo 501 is the same and the pitch equals. . In this embodiment, the rotation body has two pieces for being erected on both ends of the chopsticks.

The output end of the transport element 5 is provided with a guide mechanism comprising a guide element 6 and a stop element 7 located outside the circumference of the guide element 6. The guide 6 is located between the two rotating bodies. The guide piece 6 is a cylinder, the limiting piece 7 is a semicircle, and one surface of the limiting piece 7 facing the direction of the guide piece 6 is an arc surface concentrically arranged with the guide piece 6. A guide channel 8 for guiding the single chopstick through a circular arc path is formed between the guide piece 6 and the limiting piece 7, wherein the inlet of the guide channel 8 is arranged at the output end of the feeding mechanism, and the outlet of the guide channel 8 is positioned below. As shown in fig. 1, in order to smoothly enter the guide passage 8 from the rotator, the upper end of the guide member 6 is slightly lower than the bottom height of the material-placing groove 501 at the highest point.

The guide member 6 is rotatably mounted on the frame 1 and is driven to rotate by a separate motor. The axis of rotation of the guide 6 is horizontal and perpendicular to the axis of rotation of the transport element 5. The direction of rotation of the guide member 6 is clockwise in fig. 1, causing the chopsticks to move tangentially of the guide member 6 in the transport direction of the transport member 5 and thus into the guide channel 8. The guide member 6 is made of rubber or plastic, and the stopper member 7 may be made of a material having a large friction coefficient, or a rubber layer may be provided on a surface facing the guide member 6 to increase frictional resistance. Wherein the width of the guide channel 8 is equal to or slightly smaller than the diameter of the chopsticks, so that the chopsticks can be pressed by both the guide piece 6 and the stopper piece 7 when entering the guide channel 8, thereby generating a friction effect. When the chopsticks enter the guide channel 8, the chopsticks are revolved along the guide piece 6 and rotate by the rotation of the guide piece 6 and the friction of the guide piece 6 and the rubber layer, thereby finishing the processing of the ring groove.

The ring-cutting blade 9 is provided on one side of the guide passage 8, i.e., on one side in the axial direction of the guide 6. The rotation center of the ring-cutting blade 9 is positioned at the arc center of the guide channel 8, the rotation axis of the ring-cutting blade 9 is superposed with the rotation axis of the guide piece 6, and the ring-cutting blade 9 can cut ring grooves with the same depth on the surfaces of the chopsticks when the chopsticks pass through the guide channel 8. The outlet of the chopsticks is located below the guide channel 8, i.e. below the guide member 6. After cutting, the chopsticks fall from the lower part of the guide piece 6, a stop lever 14 is arranged below the guide piece 6, the stop lever 14 is positioned at one end of each chopstick, when the horizontal chopsticks fall downwards, one end of each chopstick touches the stop lever 14, and the other end of each chopstick does not contact with the stop lever, so that the chopsticks fall vertically.

A plurality of ring-cutting blades 9 are distributed at intervals along the axial direction, and the number of the ring-cutting blades 9 determines the number of ring grooves of the chopsticks. The cutting radius of the ring cutting blade 9 is larger than the radius of the guide piece 6 and smaller than the radius of the arc surface of the limiting piece 7, and the difference between the radius of the ring cutting blade 9 and the radius of the guide piece 6 is the depth of the ring groove.

The blocking piece 10 for blocking the chopsticks from moving radially is arranged on the outer side of the circumference of the circular cutting blade 9, and the blocking piece 10 is provided with an arc blocking surface concentric with the circular cutting blade 9, so that the chopsticks are prevented from jumping due to stress when being in contact with the circular cutting blade 9, and the cutting depth of the circular groove is prevented from being influenced. The direction of rotation of the ring cutting blade 9 is the same as the direction of rotation of the guide 6.

One side of the rotator is provided with an aligning piece 12 for preventing the chopsticks from moving along the tangential direction of the rotator, and the aligning piece 12 and the ring-cutting blade 9 are positioned at the same side of the rotator, namely the side of the chopsticks moving along the tangential direction of the rotator. The aligning member 12 may be a vertical flat plate having a smooth surface, and the plate surface of the flat plate is parallel to the rotational axis of the rotor. When the rotator rotates, the friction force pushes the chopsticks to move along the tangential direction, the same ends of the chopsticks are aligned under the blocking action of the aligning piece 12, and the aligned ends are cut by the circular cutting blade 9 to process circular grooves with the same positions. The end of the aligning member 12 extends to the ring cutting blade 9 and projects forward beyond the end of the conveying member 5, ensuring that the end of the chopsticks always abuts against the aligning member 12 when the chopsticks are in the conveying member 5.

As shown in fig. 1, the feeding member 2 includes a bottom plate 201, and the bottom plate 201 is disposed obliquely above the conveying member 5. A transverse rotating shaft 3 is arranged above the surface of the bottom plate 201, a rotary pulling part 4 for pulling up the chopsticks is arranged on the rotating shaft 3, a gap convenient for the single chopsticks to pass is formed between the rotary pulling part 4 and the bottom plate 201, and the accumulated chopsticks are flatly paved on the bottom plate 201 one by one, so that the chopsticks can conveniently enter a conveying part 5 below one by one. Bottom plate 201 passes through adjusting part 11 to be installed in frame 1, and adjusting part 11 includes vertical screw rod and the nut of spiro union on the screw rod that is fixed in the frame, and some suit of bottom plate 201 is on the screw rod to both sides spiro union nut is fixed a position about, in order to adjust bottom plate 201 and dial the interval of 4 soon. The surface of the rotary stirring piece 4 protrudes to form convex teeth, and the convex teeth are circumferentially distributed on the circumferential surface of the rotary stirring piece 4. In the present embodiment, the dial 4 is a plastic gear. As shown in fig. 2, two rotary members 4 are provided, and are respectively located above the two rotary bodies. The tangential direction of the rotating member 4 near the bottom plate 201 is inclined upward, and in fig. 1, the rotating member 4 rotates clockwise.

Claims

1. Full-automatic chopsticks open printing machine, including transport piece (5) that are used for the transverse transport chopsticks, set up in feed spare (2) of the input of transport piece (5) and set up in the ring cutter piece (9) of the output of transport piece (5), its characterized in that: still include guiding mechanism, guiding mechanism includes pivoted guide piece (6) and locating part (7) that are located guide piece (6) circumference outside, form between guide piece (6) and locating part (7) and be used for guiding single chopsticks through guide channel (8) in circular arc route, the entry setting of guide channel (8) is at feeding mechanism's output, ring cutter piece (9) set up the one side at guide channel (8), and the centre of rotation of ring cutter piece (9) is located the arc center of guide channel (8).

2. The full-automatic chopstick printer according to claim 1, wherein: the guide piece (6) is a cylinder, and one surface of the limiting piece (7) facing to the direction of the guide piece (6) is an arc surface concentrically arranged with the guide piece (6).

3. The full-automatic chopstick printer according to claim 1, wherein: the rotating axis of the circular cutting blade (9) is superposed with the rotating axis of the guide piece (6) and a plurality of circular cutting blades are distributed at intervals along the axial direction.

4. The full-automatic chopstick marking machine as claimed in claim 3, wherein: the cutting radius of the circular cutting blade (9) is larger than the radius of the guide piece (6) and smaller than the radius of the circular arc surface of the limiting piece (7).

5. The full-automatic chopstick printer according to claim 1, wherein: a blocking piece (10) for blocking the chopsticks from moving radially is arranged on the outer side of the circumference of the circular cutting blade (9), and the blocking piece (10) is provided with a circular arc blocking surface concentric with the circular cutting blade (9).

6. The full-automatic chopstick printer according to claim 1, wherein: the conveying piece (5) comprises a rotating body for axially conveying the chopsticks, a material placing groove (501) is arranged on the rotating body, and the material placing groove (501) is spirally wound on the circumferential surface of the rotating body.

7. The full-automatic chopstick marking machine as claimed in claim 6, wherein: the rotor has two at least, and two adjacent rotors are synchronous and syntropy rotate, the helical direction that puts silo (501) is the same and the pitch equals.

8. The full-automatic chopstick marking machine as claimed in claim 6, wherein: one side of the rotating body is provided with an aligning piece for preventing the chopsticks from moving along the tangential direction of the rotating body, and the aligning piece and the circular cutting blade (9) are positioned on the same side of the rotating body.

9. The full-automatic chopstick printer according to claim 1, wherein: the feeding part (2) comprises a bottom plate (201), the bottom plate (201) is obliquely arranged above the conveying part (5), a transverse rotating shaft (3) is arranged above the surface of the bottom plate (201), a rotary stirring part (4) for stirring up the chopsticks is arranged on the rotating shaft (3), and a gap for allowing a single chopstick to pass through is formed between the rotary stirring part (4) and the bottom plate (201).

10. The full-automatic chopstick printer according to claim 9, wherein: the bottom plate (201) is installed on the rack (1) through the adjusting component (11) so as to adjust the distance between the bottom plate (201) and the rotating and stirring piece (4).