CN113021433A - Single or many automatic cutout accuse material of straw are spit out mechanism - Google Patents

Abstract

The invention relates to a single or multiple suction pipe automatic cutting and material control discharge mechanism which comprises an air expansion shaft, wherein a suction pipe material is wound on the air expansion shaft, and a discharge driving mechanism drives the air expansion shaft to rotate so as to realize the outward conveying of the suction pipe material. The invention realizes the automatic cutting and discharging of a single or a plurality of straws through the die wheel mechanism, is more stable than the prior mode of driving the straws through the belt, and has no conditions of slipping, excessive cutting, less cutting, cutting to the straws and the like. Meanwhile, the automatic straw cutting and discharging mechanism is simple in structure, stable in operation and convenient to maintain, the operation speed of the automatic straw cutting and discharging mechanism is doubled compared with that of the existing automatic straw cutting and discharging mechanism, and the automatic straw cutting and discharging limit speed of a single or multiple straws is broken through.

Description

Single or many automatic cutout accuse material of straw are spit out mechanism

Technical Field

The invention relates to a single or multiple automatic cutting and spitting mechanism for oral liquid straws, which is also suitable for similar products needing straws.

Background

As shown in fig. 1 and 2, the conventional automatic straw cutting and discharging mechanism includes a vertical plate housing 1, an inflatable material bearing shaft 2, a tension wheel 3, a guide transition wheel 4, a guide rail 5, a pair of symmetrically arranged material control feeding clamp belts 6, a feeding belt 7, a motor 8, a servo motor 9, a material control groove-shaped photoelectric device 10, and a cutter 11, so as to implement a function of single or multiple automatic material control feeding.

The straw material comprises a plurality of straw bodies, each straw body is positioned in one plastic sealing bag, and the adjacent plastic sealing bags are connected together through a connecting part, so that the straw material forms a strip-shaped structure. The automatic straw cutting and discharging mechanism shown in fig. 1 and 2 is used for cutting a whole roll of straw materials and cutting off the connecting parts in the straw materials to obtain a single straw wrapped in a plastic sealing bag or a plurality of straws which are respectively wrapped in respective plastic sealing bags and are connected with each other through the connecting parts. The operation process of the automatic straw cutting and ejecting mechanism shown in fig. 1 and 2 is as follows:

the whole roll of straw material to be cut is wound on the air expansion shaft 2, the belt-shaped straw material firstly winds through one or more than one over-guiding wheels 4 in the over-guiding wheel set and then winds through the tension wheel 3 and then returns to the over-guiding wheel set, and the straw material winds through the rest over-guiding wheels 4 in the over-guiding wheel set and then enters the material control feeding belt 6 through the guide rail 5. The material control feeding belt 6 is driven by the servo motor 9 to convey straw materials to the cutter 11. During the conveying process, the material control groove type photoelectric device 10 controls to deliver only one straw body to the cutter 11 at a time or deliver a plurality of straw bodies to the cutter 11 at a time. After each time of conveying, the cutter 11 cuts off the connecting part at the corresponding position, and the feeding belt 7 sends out the cut straws or the straws connected together to finish discharging.

The existing automatic straw cutting and discharging mechanism can realize the function of single or multiple automatic cutting and material control feeding, but has very high requirements on straw materials. The material control feeding belt 6 clamps the straw body on the straw material and drives the straw material to be conveyed forwards by friction. If the thicknesses of the straw bodies on the straw materials are different, the material control feeding belt 6 cannot form effective clamping on the thinner straw bodies, so that the phenomenon of slipping occurs when the straw materials are conveyed forwards. On the one hand, the amount of straws cut by the cutter 11 may not reach the desired amount, and on the other hand, the cutter 11 cuts on the straw body, which results in the straw being discarded. Because the material control feeding clamp belt 6 is required to effectively clamp the thinner suction pipe body, the requirements on the tightness and the center distance of the material control feeding clamp belt 6 are very high. After long-time production, the material control and feeding clamp belt 6 is inevitably loosened, so that the tension degree and the center distance of the material control and feeding clamp belt cannot reach the expected vertical direction, and the material control and feeding clamp belt 6 cannot form effective clamping on the suction pipe body, thereby causing skidding. In addition to the requirement of very high tightness and center distance for the material control and feeding clamp belt 6, in order to ensure that the suction pipe body is effectively clamped, the requirements of friction force and flexibility for the material control and feeding clamp belt 6 are also very high, so that the material control and feeding clamp belt 6 must be replaced in time after being used for a period of time, and the replacement frequency of the material control and feeding clamp belt 6 is high. In the automatic straw cutting and discharging mechanism shown in fig. 1 and 2, the distance between the straw body and the cutter 11 is relatively large between the material control feeding belt 6 and the cutter 11, and the cutter 11 can be mistakenly cut into the straw body due to the fact that the straw material stretches to a certain extent.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the prior automatic straw cutting and discharging mechanism is easy to cut the straw body by mistake and has unstable performance.

In order to solve the technical problems, the technical scheme of the invention provides a single or multiple suction pipe automatic cutting and material control discharge mechanism which comprises an air expansion shaft, suction pipe materials are wound on the air expansion shaft, and a discharge driving mechanism drives the air expansion shaft to rotate so as to realize outward conveying of the suction pipe materials; defining the plastic sealing bags wrapped with the single straw bodies as single straws, and defining at least two connected plastic sealing bags wrapped with one straw body respectively as a plurality of straws; after the die wheel rotates, the single suction pipe or the plurality of suction pipes cut off on the die wheel fall off from the die wheel through the forced stripping mechanism, so that the discharge of the single suction pipe or the plurality of suction pipes is realized;

k die wheel grooves are uniformly distributed on the outer circumferential surface of the die wheel along the axial direction, K is more than or equal to 1, and each die wheel groove circumferentially surrounds the die wheel for a circle;

the forced stripping mechanism comprises K stripping teeth, the front ends of the K stripping teeth extend into K die wheel grooves, and when the die wheel rotates, the front ends of the stripping teeth are used for stripping the single suction pipe or the multiple suction pipes from the die wheel.

Preferably, the tensioning wheel moves between a stop feed position and a feed position:

when the tensioning wheel is positioned at the material feeding stopping position, the discharging driving mechanism stops working, the straw material is completely tensioned on the first transition guide wheel set and the tensioning wheel, and the die wheel driving mechanism drives the die wheel, so that the die wheel synchronously drives the tensioning wheel to move towards the feeding position through the straw material;

when the take-up pulley is located and send the material level, mould wheel actuating mechanism stop work, discharge actuating mechanism drive inflatable shaft outwards carries the straw material after rotating, simultaneously, the take-up pulley removes to stopping sending the material level in step, until the take-up pulley removes to when stopping sending the material level, discharge actuating mechanism stop work.

Preferably, the tensioning wheel is indicated to move to the feeding position through an optoelectronic device on the material control; and indicating the tensioning wheel to move to the stop material feeding position through a material control lower photoelectric device.

Preferably, the guide transition mechanism comprises a guide transition plate, a second transition guide wheel set and a rolling pressure wheel set, the straw material out of the first transition guide wheel set is sent into the guide transition plate, and the guide transition plate limits the straw material to be horizontally conveyed forwards to the second transition guide wheel set; the second transition guide wheel set is matched with the die wheel, and the straw material which is guided out of the transition plate is wound on the outer circumferential surface of the die wheel after passing through the second transition guide wheel set; when the die wheel rotates, the straw material wound on the outer circumferential surface of the die wheel is brought to the position of the cutter through a gap between the rolling pressing wheel group and the die wheel, and the rolling pressing wheel group presses the straw material by controlling the gap between the rolling pressing wheel group and the die wheel, so that the straw material is clamped on the outer circumferential surface of the die wheel.

Preferably, the outer circumferential surface of the die wheel is provided with N teeth and N cutter grooves, the N teeth and the N cutter grooves are uniformly distributed along the circumferential direction of the outer circumferential surface of the die wheel at intervals, and each tooth and each cutter groove are arranged along the axial direction of the die wheel;

the tooth shape of each tooth is adapted to the shape of each straw body in the straw material, so that each straw body can be clamped on the corresponding tooth; the connecting part in the straw material is positioned at the position of the cutter groove, and the cutter extends into the cutter groove so as to cut off the connecting part at the corresponding position;

when the discharging of a single suction pipe needs to be finished, the angle alpha of each rotation of the die wheel is 360/N degrees;

when the discharging of a plurality of straws needs to be finished, the discharging of M straws needs to be finished, wherein M is more than or equal to 2, and the angle alpha of each rotation of the die wheel is Mx (360/N).

Preferably, the straw discharging device further comprises an arc-shaped protection plate, after the single straw or the plurality of straws are cut off from the straw material by the cutter, the single straw or the plurality of straws pass through a gap between the arc-shaped protection plate and the die wheel and then pass through the forced material-stripping mechanism to complete discharging, and the cut single straw or the plurality of straws are ensured to be firmly clamped on the die wheel by controlling the gap between the arc-shaped protection plate and the die wheel.

Compared with the prior art, the invention has the beneficial effects that:

the invention realizes the automatic cutting and discharging of a single or a plurality of straws through the die wheel mechanism, is more stable than the prior mode of driving the straws through the belt, and has no conditions of slipping, excessive cutting, less cutting, cutting to the straws and the like. Meanwhile, the automatic straw cutting and discharging mechanism is simple in structure, stable in operation and convenient to maintain, the operation speed of the automatic straw cutting and discharging mechanism is doubled compared with that of the existing automatic straw cutting and discharging mechanism, and the automatic straw cutting and discharging limit speed of a single or multiple straws is broken through.

Drawings

FIGS. 1 and 2 are schematic structural views of a conventional automatic straw cutting and ejecting mechanism;

FIG. 3 is a front view (partially in section) of an automatic cutting-off, material-controlling and discharging mechanism for a single or multiple straws according to the present invention;

FIG. 4 is a rear view of a single or multiple suction pipes automatic cutting and material controlling and discharging mechanism provided by the present invention;

FIG. 5 is a front view of an automatic cutting and material-controlling discharge mechanism for single or multiple straws according to the present invention;

FIG. 6 is a perspective view of an automatic cutting and material-controlling discharge mechanism for single or multiple straws according to the present invention.

Detailed Description

The invention will be further illustrated with reference to the following 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. Further, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teaching of the present invention, and such equivalents may fall within the scope of the present invention as defined in the appended claims.

The invention aims to provide an advanced mechanism which has the advantages of advanced structure, delicate design, simple structure, convenient maintenance, capability of realizing single or multiple pieces of automatic cutting and material control feeding, stable high-speed operation and 130 times per minute. Similar to the prior art, the straw material processed by the invention comprises a plurality of straw bodies, each straw body is positioned in one plastic sealing bag, and the adjacent plastic sealing bags are connected together through a connecting part, so that the straw material forms a strip-shaped structure. To facilitate understanding of the present invention by those skilled in the art, a plastic pouch enclosing a single straw body is defined as a single straw, and at least two connected plastic pouches, each enclosing a straw body, are defined as a plurality of straws.

As shown in fig. 3, 4 and 5, the present invention provides a single or multiple straw automatic cutting and material controlling and discharging mechanism, which comprises: the device comprises an air expansion shaft 2, a transition guide wheel group 12, a tension wheel 13, a rolling pressure wheel assembly 14, a cutter 11, a wall plate 15, a guide transition plate 16, a transition guide wheel 17, a die wheel 18, a forced stripper plate 19, an arc-shaped guard plate 20, a die wheel bearing seat 21, a die wheel shaft 22, an air expansion shaft bearing seat 23, a cutter cylinder 24, a cutter cylinder seat 25, a material control servo motor 26, a material discharge motor 27, a tension wheel slide block seat 28, a material control glazing electric device 29 and a material control material discharge electric device 30.

The air expansion shaft 2 is matched and installed on an air expansion shaft bearing seat 23 and then is integrally installed on the wall plate 15. The transition guide wheel group 12 and the transition guide wheel 17 are both mounted on the wall plate 15. The wall plate 15 is provided with a tensioning slider rail, a tensioning wheel slider seat 28 is arranged on the tensioning slider rail, and a tensioning wheel 04 is arranged on the tensioning wheel slider seat 28 again, so that the tensioning wheel 04 can move up and down along the tensioning slider rail. The guide transition plate 16 is installed on the wall plate 15 such that the guide plane of the guide transition plate 16 is aligned with the transition guide wheel of the transition guide wheel set 12 that is connected to the guide transition plate 16, and such that the guide plane of the guide transition plate 16 is aligned with the outer diameter of the transition guide wheel 17. The die wheel shaft 22 is fitted to the die wheel bearing housing 21 and is integrally mounted to the wall plate 15. Die wheel 18 is mounted to die wheel shaft 22. After the rolling pinch roller assembly 14 is mounted on the pinch roller base, it is integrally mounted on the wall plate 15. The pressing wheel belt of the rolling pressing wheel assembly 14 presses the die wheel 18, and the rolling pressing wheel assembly 14 is driven to roll by the die wheel 18. The cutter 11 is arranged on the cutter seat which is arranged on the slide rail seat. An inner rod of the cutter cylinder 24 is arranged on the slide rail seat, and a base of the cutter cylinder 24 is arranged on the cutter cylinder seat 25. The discharging motor 27 is arranged on the wall plate 15 and is connected with the tail end of the air expansion shaft 2 through a synchronous belt. An arc guard 20 is mounted on the wall panel 15, the arc of the arc guard 20 being concentric with the die wheel 18. The side edge of the forced stripper plate 19 is arranged on the wall plate 15, and three stripper teeth are fixed on the mounting plane of the forced stripper plate 19.

In operation, the straw material 31 is first mounted on the inflatable shaft 2. The material control servo motor 26 drives the die wheel 18 to rotate through the die wheel shaft 22. The outer circumference of the die wheel 18 is provided with 36 teeth and 36 cutter grooves, and the 36 teeth and the 36 cutter grooves are uniformly distributed at intervals along the circumferential direction. Each tooth and each cutter slot are arranged in the axial direction of die wheel 18. The tooth shape of each tooth is adapted to the shape of each straw body in the straw material 31, so that each straw body can be clamped on the tooth at the corresponding position. The connecting part in the straw material 31 is positioned at the position of the cutter groove, and the cutter 11 extends into the cutter groove so as to cut off the connecting part at the corresponding position. The straw material 31 passes through the transition guide wheel 17 and then clings to the die wheel 18, and the straw material 31 is firmly pressed on the die wheel 18 by the rolling pressure wheel assembly 14 above the cutting knife 11. The part below the cutter 11 is protected by an arc-shaped guard plate 20 to protect a single straw or a plurality of straws cut off from the straw material 31 by the cutter 11. In this embodiment, each time the material control servo motor 26 outputs an angle of 10 °, the die wheel 18 rotates one straw, so that the cutter 11 cuts off a single straw at each time. The number of straws cut at a time is controlled by setting different rotation angles of the die wheel 18, for example, if the cutter 11 is required to cut 5 straws at a time, the output angle of the material control servo motor 26 at a time is modified to 50 °. When cutting, the cutter 11 is driven by the cutter cylinder 24 to cut off the straw material 31.

3 die wheel grooves are uniformly distributed on the outer circumferential surface of the die wheel 18 along the axial direction, and each die wheel groove surrounds the die wheel 18 along the circumferential direction. The die wheel 18 rotates and simultaneously discharges the cut suction pipe or suction pipes by using the stripping teeth on the forced stripping plate 10. The front ends of 3 stripping teeth on the forced stripping plate 10 respectively extend into the middle outer diameter of the 3 die wheel grooves, and the middle ends and the rear ends of the 3 stripping teeth are positioned outside the die wheel 18 and fixed on the forced stripping plate 10. The suction pipe is driven by the rotation of the die wheel 18, and after passing through the stripping teeth, the suction pipe is forcedly stripped from the die wheel 18 by the stripping teeth.

When the die wheel 18 rotates, the suction pipe material 31 is driven, and the suction pipe material 31 drives the tension wheel 13 and the tension wheel slide block seat 28 to move upwards. When the tensioning wheel slide block seat 28 moves to be close to the material control and photoelectric device 29, the material control and photoelectric device 29 is triggered to work, and the discharging motor 27 is started to drive the whole roll of straw material 31 to be output outwards. During the output process, the tensioning wheel 13 can be driven by the mechanical arm to move downwards, so that the suction pipe material 31 is tensioned gradually, and the discharging motor 27 stops working until the tensioning wheel slide block seat 28 is close to the material control discharging photoelectric device 30. The material control servo motor 26 works to drive the die wheel 18 to rotate.

Claims (6)

1. A single or multiple suction pipe automatic cutting and material control discharge mechanism comprises an air expansion shaft, suction pipe materials are wound on the air expansion shaft, and a discharge driving mechanism drives the air expansion shaft to rotate so as to realize outward conveying of the suction pipe materials; defining the plastic sealing bags wrapped with the single straw bodies as single straws, and defining at least two connected plastic sealing bags wrapped with one straw body respectively as a plurality of straws; after the die wheel rotates, the single suction pipe or the plurality of suction pipes cut off on the die wheel fall off from the die wheel through the forced stripping mechanism, so that the discharge of the single suction pipe or the plurality of suction pipes is realized;

k die wheel grooves are uniformly distributed on the outer circumferential surface of the die wheel along the axial direction, K is more than or equal to 1, and each die wheel groove circumferentially surrounds the die wheel for a circle;

the forced stripping mechanism comprises K stripping teeth, the front ends of the K stripping teeth extend into K die wheel grooves, and when the die wheel rotates, the front ends of the stripping teeth are used for stripping the single suction pipe or the multiple suction pipes from the die wheel.

2. The automatic cut-off and material-control spitting mechanism for single or multiple straws as claimed in claim 1, wherein the tension wheel moves between a stop feeding position and a feeding position:

when the tensioning wheel is positioned at the material feeding stopping position, the discharging driving mechanism stops working, the straw material is completely tensioned on the first transition guide wheel set and the tensioning wheel, and the die wheel driving mechanism drives the die wheel, so that the die wheel synchronously drives the tensioning wheel to move towards the feeding position through the straw material;

when the take-up pulley is located and send the material level, mould wheel actuating mechanism stop work, discharge actuating mechanism drive inflatable shaft outwards carries the straw material after rotating, simultaneously, the take-up pulley removes to stopping sending the material level in step, until the take-up pulley removes to when stopping sending the material level, discharge actuating mechanism stop work.

3. The automatic cut-off and material-control discharge mechanism for one or more straws of claim 2, wherein the tensioning wheel is instructed to move to the material feeding position by an electro-optical device on the material control; and indicating the tensioning wheel to move to the stop material feeding position through a material control lower photoelectric device.

4. The automatic cutting-off and material-controlling discharge mechanism for single or multiple straws of claim 1, wherein the guiding transition mechanism comprises a guiding transition plate, a second transition guiding wheel set and a rolling pressure wheel set, the straw material discharged from the first transition guiding wheel set is fed into the guiding transition plate, and the straw material is limited by the guiding transition plate to be horizontally conveyed forwards to the second transition guiding wheel set; the second transition guide wheel set is matched with the die wheel, and the straw material which is guided out of the transition plate is wound on the outer circumferential surface of the die wheel after passing through the second transition guide wheel set; when the die wheel rotates, the straw material wound on the outer circumferential surface of the die wheel is brought to the position of the cutter through a gap between the rolling pressing wheel group and the die wheel, and the rolling pressing wheel group presses the straw material by controlling the gap between the rolling pressing wheel group and the die wheel, so that the straw material is clamped on the outer circumferential surface of the die wheel.

5. The automatic cutting-off and material-controlling discharge mechanism for one or more straws as claimed in claim 1, wherein the outer circumferential surface of the die wheel is provided with N teeth and N cutter grooves, the N teeth and the N cutter grooves are uniformly distributed at intervals along the circumferential direction of the outer circumferential surface of the die wheel, and each tooth and each cutter groove are arranged along the axial direction of the die wheel;

the tooth shape of each tooth is adapted to the shape of each straw body in the straw material, so that each straw body can be clamped on the corresponding tooth; the connecting part in the straw material is positioned at the position of the cutter groove, and the cutter extends into the cutter groove so as to cut off the connecting part at the corresponding position;

when the discharging of a single suction pipe needs to be finished, the angle alpha of each rotation of the die wheel is 360/N degrees;

when the discharging of a plurality of straws needs to be finished, the discharging of M straws needs to be finished, wherein M is more than or equal to 2, and the angle alpha of each rotation of the die wheel is Mx (360/N).

6. The automatic cutting-off and material-controlling discharge mechanism for single or multiple straws as claimed in claim 1, further comprising an arc-shaped guard plate, wherein after the single or multiple straws are cut off from the straw material by the cutter, the single or multiple straws pass through a gap between the arc-shaped guard plate and the die wheel and then pass through the forced material-removing mechanism to complete discharge, and the gap between the arc-shaped guard plate and the die wheel is controlled to ensure that the cut single or multiple straws are firmly clamped on the die wheel.

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