CN217262580U - Cup lid piles up pile up neatly mechanism - Google Patents

Abstract

The utility model discloses a bowl cover piles up pile up neatly mechanism, include: the top surface of the base plate is provided with a limiting bulge, and the thickness direction of the base plate is provided with a jacking accommodating hole; the stacking channel is connected with the base plate and is arranged around the periphery of the jacking accommodating hole in a surrounding way, the stacking channel is combined with the top surface of the base plate to form a lateral cup cover inlet, and a cup cover stacking and supporting piece is arranged on the inner wall of the stacking channel; the jacking accommodating hole is arranged between the limiting bulge and the lateral cup cover inlet; the jacking mechanism is arranged in the jacking accommodating hole and is configured to jack the cup cover to the position above the cup cover stacking and supporting piece; the automatic lifting device is characterized by further comprising a continuous conveying piece, wherein the cup cover is output to the inlet of the lateral cup cover, and the conveying direction is consistent with the direction from the inlet of the lateral cup cover to the lifting containing hole. The cup cover stacking mechanism comprises a continuous conveying member, wherein the cup covers move on the continuous conveying member along the conveying direction, can still keep the original moving state after being separated from the continuous conveying member, and slide to a position between a lateral cup cover inlet above a base plate and a limiting bulge; the mechanical structure is simple and practical, and the stacking speed of the cup covers is improved.

Description

Cup lid piles up pile up neatly mechanism

Technical Field

The utility model relates to a bowl cover detects technical field, concretely relates to bowl cover piles up pile up neatly mechanism.

Background

The cup cover is a paper cup matching part made of plastic materials, and the cover body is light and thin and has huge yield. The cup covers are stacked in the transportation and use links, so that the transportation space can be saved, and the cup covers are used more orderly.

Lid stacking in the prior art is as disclosed in CN210555851U, wherein the lid transfer process is: the cup cover of the conveying belt is output to the clamping groove of the material collecting disc, the material collecting disc drives the cup cover to rotate to the position below the through hole of the material collecting disc, and the material returning rod pushes the cup cover upwards to the stacking station defined by the limiting rod in a surrounding mode. The above scheme has the following technical defects: the device comprises a first material tray, a second material tray, a first material tray and a second material tray, wherein the first material tray comprises a material tray and a driving mechanism of the material tray; secondly, the cup cover stacking needs to be sequentially carried out through the output of the conveying belt, the rotation of the material arranging plate and the pushing of the material pushing rod, the single cup cover consumes long time, and the stacking production efficiency is low; thirdly, when the cup covers on the conveying belt are conveyed closely in front and at the back, the cup covers and the outer edge of the whole material tray are inevitably extruded and rubbed, and the quality of the cup covers is influenced.

SUMMERY OF THE UTILITY MODEL

One of the purposes of the utility model is to overcome the defects in the prior art, provide a pile up neatly mechanism is piled up to the bowl cover, utilize the inertia of bowl cover in the continuous conveyor spare, make the bowl cover slide in between side direction bowl cover entry and the spacing arch, simplify the feeding mechanical structure who piles up the passageway.

The above-mentioned technological effect that obtains, the utility model discloses a technical scheme does: a lid stacking and palletizing mechanism comprising:

the top surface of the base plate is provided with a limiting bulge, and the thickness direction of the base plate is provided with a jacking accommodating hole;

the stacking channel is arranged around the jacking accommodating hole and combined with the top surface of the base plate to form a lateral cup cover inlet, and a cup cover stacking and supporting piece is arranged on the inner wall of the stacking channel; the jacking accommodating hole is arranged between the limiting bulge and the lateral cup cover inlet;

the jacking mechanism is arranged in the jacking accommodating hole and is configured to jack the cup cover to the position above the cup cover stacking and supporting piece; further comprising:

and the continuous conveying piece outputs the cup cover to the lateral cup cover inlet, and the conveying direction is consistent with the direction from the lateral cup cover inlet to the jacking accommodating hole.

The preferable technical scheme is that the conveying surface at the discharge end of the continuous conveying piece is an inclined conveying surface, and the feed end of the inclined conveying surface is higher than the discharge end.

Preferably, the continuous conveying member is a conveyor belt.

The top surface of the substrate and the inclined conveying surface have the same inclination direction, a first end part of the top surface of the substrate is higher than a second end part, and the first end part is smoothly connected with the inclined conveying surface.

The preferable technical scheme is that a guide part is arranged above the discharge end of the continuous conveying part, and the guide part and the working surface of the continuous conveying part are combined into a guide groove or a guide channel; the guide groove or the guide channel is communicated with the lateral cup cover inlet.

The preferred technical scheme does, it is provided with the perforation to pile up the lateral wall of passageway, the bowl cover is folded the support piece and is pegged graft and set up in the perforation.

The preferred technical scheme is that the cup cover stacking and supporting piece is provided with a long hole, and the extending direction of the long edge of the long hole is consistent with the radial direction of the stacking channel.

The preferred technical scheme does, it is provided with the bowl cover and folds and takes out the mouth to pile up the passageway, the bowl cover is folded and is taken out the mouth and is followed the length direction who piles up the passageway extends to pile up the both ends of passageway.

The preferred technical scheme does, the bowl cover is folded and is taken out mouth and spacing arch set up in the homonymy of jacking accepting hole.

The preferable technical scheme is that one end of the stacking channel is connected with the substrate, and the other end of the stacking channel is a free end; the end part of the cup cover folding taking-out opening positioned at the free end is open.

The utility model has the advantages and beneficial effects that:

the cup cover stacking mechanism comprises a continuous conveying member, wherein cup covers move on the continuous conveying member along the conveying direction, can still keep the original movement state after being separated from the continuous conveying member, and slide to a position between a lateral cup cover inlet above a base plate and a limiting bulge;

compared with the material arranging disc in the prior art, the mechanical structure is simple and practical, and the stacking speed of the cup covers is improved;

the discharge end of the continuous conveying piece can be provided with a stacking mechanism formed by combining more than two substrates, stacking channels and jacking mechanisms, so that the stacking speed is further increased.

Drawings

FIG. 1 is a schematic perspective view of a lid stacking mechanism according to an embodiment;

FIG. 2 is a schematic perspective view of the plate, stacking channel, jacking mechanism and limiting protrusion in the embodiment;

FIG. 3 is another schematic perspective view of the plate, stacking channel, jacking mechanism and limiting protrusion in the embodiment;

FIG. 4 is a schematic top view of the plate, stacking channel, jacking mechanism and limiting protrusion in the embodiment;

FIG. 5 is an enlarged view of a portion of FIG. 4;

in the figure: 1. a substrate; 2. a stacking channel; 21. a cup cover stack outlet; 2a, a free end; 3. a jacking mechanism; 4. a continuous transport member; 5. a limiting bulge; 6. a lateral cup cover inlet; 7. supporting the bump; 71. a long hole; 8. a guide member.

Detailed Description

The following description will further describe embodiments of the present invention with reference to the accompanying drawings and examples. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

In the description of the present application, it is to be noted that, unless otherwise specified, "a plurality" means two or more; the terms "upper," "lower," "left," "right," "inner," "outer," and the like, indicate an orientation or positional relationship that is merely for convenience in describing the application and to simplify the description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the application.

In the description of the present invention, it should also be noted that, unless explicitly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; can be directly connected or indirectly connected. The specific meaning of the above terms in the present invention can be understood as the case may be, by those of ordinary skill in the art.

Examples

As shown in fig. 1-3, the cup cover stacking mechanism of the embodiment comprises a base plate 1, a stacking channel 2, a jacking mechanism 3 and a continuous conveying member 4; the top surface of the base plate 1 is provided with a limiting bulge 5, and a jacking accommodating hole penetrates through the thickness direction of the base plate 1; the stacking channel 2 is connected with the base plate 1 and is arranged around the periphery of the jacking containing hole in a surrounding mode, the stacking channel 2 and the top surface of the base plate 1 are combined to form a lateral cup cover inlet 6, and a cup cover stacking and supporting piece is arranged on the inner wall of the stacking channel 2; the jacking accommodating hole is arranged between the limiting bulge 5 and the lateral cup cover inlet 6; the jacking mechanism 3 is arranged in the jacking accommodating hole and is configured to jack the cup cover to the position above the cup cover stacking and supporting piece; the automatic cup lid lifting device further comprises a continuous conveying piece 4 which outputs cup lids to the lateral cup lid inlets 6, and the conveying direction of the continuous conveying piece 4 is consistent with the direction from the lateral cup lid inlets 6 to the jacking containing holes.

Spacing arch 5 is the lug for the option, perhaps stands out in the sensor of base plate 1 top surface, and the sensor is used for with the bowl cover butt to confirm bowl cover pan feeding to the target location of base plate 1, this target location with pile up passageway 2 relative from top to bottom, and then control 3 jacking bowl covers of climbing mechanism. The stacking channel 2 is cylindrical, trough-shaped or, as disclosed in CN210555851U, is enclosed by at least three stopper rods. Jacking accepting hole can be selected for the through hole of 1 thickness direction of base plate, also can be the blind hole, satisfies to accept climbing mechanism 3 wholly, perhaps accepts in the climbing mechanism 3 with the jacking piece of bowl cover to the top. The lateral cup cover inlet 6 faces the discharge end of the continuous conveying piece 4, and in order to achieve a better guiding effect, the lateral cup cover inlet 6 is in a flaring shape; the bowl cover folds the bearing piece and is for piling up 2 inner wall circumference intervals each other and three bearing lug 7 of fixed setting along piling up 2, and the protruding end of bearing lug 7 is around the center pin evenly distributed who piles up passageway 2, and bearing lug 7 still can select to be two or four, and the quantity and the protruding height of bearing lug 7 are specifically confirmed according to the internal diameter that piles up passageway 2, the external diameter of bowl cover and the tolerable plastic deformation volume of bowl cover. The cup lid stack support may also be a smoothly convex inner diameter narrowing of at least one of the opposite sides of the stack channel 2. The jacking mechanism 3 can select any one of driving objects to realize a driving part with linear reciprocating motion, and the driving part comprises but is not limited to a linear air cylinder, a hydraulic oil cylinder, a linear sliding table and the like. The continuous conveyor 4 may be a conveyor belt or a roller bed. The stacking channel 2 is arranged in the plumb direction (as disclosed in CN 210555851U) or inclined at an angle to the plumb direction.

In another embodiment, as shown in fig. 1, the delivery end conveying surface of the continuous conveying member 4 is an inclined conveying surface 41, and the feed end of the inclined conveying surface 41 is higher than the discharge end. The continuous conveying piece 4 is a conveying belt, the surface of the conveying belt for the cup covers is smooth, the friction force between the conveying belt and the cup covers is small, and the cup covers can slide into the target position of the base plate 1 conveniently. This structure also is favorable to reducing the height of piling up passageway 2, and the bowl cover of being convenient for operating personnel takes out from piling up passageway 2 and folds.

As shown in fig. 1, in another embodiment, the top surface of the substrate 1 and the inclined conveying surface 41 are inclined in the same direction, and a first end of the top surface of the substrate 1 is higher than a second end thereof, and the first end is received by the discharging end of the continuous conveying member 4. By receiving is meant that the inclined transport surface 41 is flush with the top surface of the substrate 1 or slightly above the top surface of the substrate 1.

In another embodiment, as shown in fig. 1, a guide member 8 is arranged above the discharge end of the continuous conveying member 4, and the guide member 8 and the working surface of the continuous conveying member 4 are combined into a guide channel which can be replaced by a guide groove; the guide channel is communicated with the lateral cup cover inlet 6.

In another embodiment, as shown in fig. 5, the side wall of the stacking channel 2 is provided with a through hole, the cup lid stacking support is a support bump 7 inserted into the through hole, and the support bump 7 is connected with the stacking channel 2 through a bolt. The holding projection 7 is provided with an elongated hole 71, and the long side extension direction of the elongated hole 71 coincides with the radial direction of the stack passage 2. Bolts are arranged in the long holes 71 in a penetrating mode and connected with flange screw holes of the stacking channels 2. When the height of the bearing lug protruding from the inner wall of the stacking channel 2 needs to be increased, the bolt is unscrewed, the bearing lug 7 is pushed to one side of the inner cavity of the stacking channel 2, and then the bolt is screwed down; conversely, when the height of the support lug protruding from the inner wall of the stacking channel 2 needs to be reduced, the bolt is loosened, the support lug 7 is pushed back to one side of the inner cavity of the stacking channel 2, and then the bolt is tightened. The height of the projections of the bearing cams 7 can also be replaced by other known slot equivalents.

In another embodiment, as shown in fig. 2, the stacking channel 2 is provided with a lid stack outlet 21, the lid stack outlet 21 extends to two ends of the stacking channel 2 along the length direction of the stacking channel 2, and the lid stack outlet 21 and the limiting protrusion 5 are arranged on the same side of the jacking-up receiving hole. An operator pushes up one cup cover in the cup cover stack through the cup cover stack taking-out opening 21 by hand, holds the cup cover on the uppermost layer by the other hand, moves the cup cover stack along the length direction of the stacking channel 2, and takes the cup cover stack out of the stacking channel 2. Specifically, the jacking surface of the jacking mechanism 3 is parallel to the top surface of the substrate 1, so that the length direction of the stacking channel 2 is preferably perpendicular to the top surface of the substrate 1, and the top surface of the substrate 1 is an inclined top surface, so that the length direction of the stacking channel 2 is also inclined relative to the vertical direction, as shown in the figure. Based on the same quantity of stacked cup covers, the length direction of the stacking channel 2 in the figure is stacked to be lower than the vertical height stacked along the vertical direction, namely, the height required for lifting the cup cover stack is lower when an operator takes out the cup cover stack, and the operation of the operator is more convenient.

As shown in fig. 2, in another embodiment, one end of the stacking channel 2 is connected to the substrate 1, and the other end is a free end 2 a; the end of the lid stack removal opening 21 at the free end 2a is open. The structure is beneficial to reducing the rubbing between the cup cover and the free end 2a of the stacking channel 2 in the process of taking out the cup cover stack, and the difficulty in taking out the cup cover stack is reduced.

The working process of the cup cover stacking mechanism is as follows:

the jacking mechanism 3 is accommodated in the jacking accommodating hole;

the cup cover is conveyed to one side of the lateral cup cover inlet 6 along with the continuous conveying belt and is separated from the conveying belt through the guiding of the guiding channel, and due to inertia, the cup cover keeps moving on the continuous conveying belt originally, slides on the substrate 1 to abut against the limiting bulge 5, and is static;

the jacking mechanism 3 jacks the cup cover upwards, the cup cover is subjected to plastic deformation when meeting the cup cover stacking supporting piece, and the cup cover is restored to the original shape after moving to the position above the supporting bump 7;

repeating the above operation, lower floor's bowl cover stacks up the pile up neatly with upper bowl cover, because of the dead weight crimping on bowl cover pile up supporting piece, pile up neatly quantity reaches after the definite value, takes out the bowl cover and folds.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the technical principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. A lid stacking and palletizing mechanism comprising:

the top surface of the base plate is provided with a limiting bulge, and the thickness direction of the base plate is provided with a jacking accommodating hole;

the stacking channel is arranged around the jacking accommodating hole and combined with the top surface of the base plate to form a lateral cup cover inlet, and a cup cover stacking and supporting piece is arranged on the inner wall of the stacking channel; the jacking accommodating hole is arranged between the limiting bulge and the lateral cup cover inlet;

the jacking mechanism is arranged in the jacking accommodating hole and is configured to jack the cup cover to the position above the cup cover stacking and supporting piece; it is characterized by also comprising

And the continuous conveying piece outputs the cup cover to the lateral cup cover inlet, and the conveying direction is consistent with the direction from the lateral cup cover inlet to the jacking accommodating hole.

2. The lid stacking and palletizing mechanism as in claim 1, wherein a discharge end conveying surface of the continuous conveying member is an inclined conveying surface, and a feed end of the inclined conveying surface is higher than a discharge end.

3. The cup cover stack stacking mechanism of claim 1, wherein the continuous transport member is a conveyor belt.

4. The cup cover stack stacking mechanism of claim 2, wherein the top surface of the base plate is inclined in the same direction as the inclined conveying surface, and a first end of the top surface of the base plate is higher than a second end of the top surface of the base plate, and the first end is in smooth engagement with the inclined conveying surface.

5. The cup cover stacking mechanism of claim 1 or 2, wherein a guide member is arranged above the discharge end of the continuous conveying member, and the guide member and the working surface of the continuous conveying member are combined into a guide groove or a guide channel; the guide groove or the guide channel is communicated with the lateral cup cover inlet.

6. The cup lid stack stacking mechanism of claim 1, wherein a side wall of the stack channel is provided with a through hole, and the cup lid stack support is inserted into the through hole.

7. The cup cover stack stacking mechanism of claim 6, wherein the cup cover stack support is provided with a long hole, and the long edge of the long hole extends in the same radial direction of the stack channel.

8. The lid stack stacking mechanism of claim 1, wherein the stack channel is provided with a lid stack removal opening extending along a length of the stack channel to both ends of the stack channel.

9. The lid stacking and stacking mechanism of claim 8, wherein the lid stack removal opening and the limiting protrusion are disposed on the same side of the jacking receiving hole.

10. The cup cover stack stacking mechanism of claim 9, wherein one end of the stack channel is connected to the base plate and the other end is a free end; the end part of the cup cover folding taking-out opening positioned at the free end is open.

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