CN218907907U - Unilateral preforming automatic parcel tool of cotton production system of hollow electrically conductive bubble of ladybug-shaped - Google Patents

Abstract

The utility model discloses a unilateral tabletting automatic wrapping jig of a ladybug-shaped hollow conductive foam production system, which is arranged on a production line of a circular knife die-cutting machine and is applied to conductive cloth with two flanging edges inside. The utility model occupies smaller width of the top surface of the objective table, is beneficial to arranging more shaping grooves on the objective table, and has high wrapping efficiency.

Description

Unilateral preforming automatic parcel tool of cotton production system of hollow electrically conductive bubble of ladybug-shaped

Technical Field

The utility model relates to the technical field of conductive foam production, in particular to an automatic single-side tabletting wrapping jig of a ladybug-shaped hollow conductive foam production system.

Background

The conductive foam is a material with good surface conductivity and is generally applied to devices which need shielding respectively.

The existing conductive foam needs to be wrapped into a cylinder shape with an internal cavity in the production process, the wrapping is usually carried out in a manual mode, the wrapping efficiency is low, and especially the wrapping difficulty of the gourd ladle-shaped conductive foam with a cylindrical surface is high, the deformation of the cavity is easy to occur, and the yield is low.

The conventional ladle-shaped conductive foam automatic wrapping jig is shown in fig. 1, and comprises an objective table 2, wherein a shaping groove 3 for placing a middle section area of a conductive cloth 1 is arranged on the objective table 2, a first turning plate 11 and a second turning plate 12 are sequentially arranged on two opposite sides of the top surface of the shaping groove 3 along the advancing direction of the conductive cloth 1, and the first turning plate 11 and the second turning plate 12 respectively press two sides of the conductive cloth 1 on two sides of the shaping groove 3 in sequence so as to automatically wrap the conductive cloth 1. The wrapping jig has the advantages that the turnover plates 4 parallel to the top surface of the object stage 2 are required to be arranged on two sides of the shaping groove 3, the occupied width of the top surface of the object stage 2 is large, and the plurality of groups of shaping grooves 3 and the turnover plates 4 are not beneficial to simultaneously and automatically wrapping the plurality of groups of conductive cloth 1, so that the wrapping efficiency is low.

Disclosure of Invention

The utility model aims to provide an automatic single-side pressing piece wrapping jig of a ladybug-shaped hollow conductive foam production system, which occupies smaller width of the top surface of an objective table, is beneficial to arranging more shaping grooves on the objective table, and has high wrapping efficiency.

In order to solve the technical problems, the utility model adopts the following scheme:

the utility model provides a unilateral preforming automatic parcel tool of cotton production system of hollow conductive bubble of ladybug, it locates on the production line of circular knife cross cutting machine, be applied to inside conductive cloth that has two turnover edges, including the objective table, be equipped with the design groove on the objective table top surface, the design groove is the cylinder form, the bottom surface of design groove is the face of cylinder form, the opposite both sides of design groove top surface are equipped with turnover plate and baffle in proper order along the direction that conductive cloth marched, turnover plate and objective table top surface parallel arrangement, baffle and objective table top surface set up perpendicularly, be equipped with the shaping board with design groove top surface parallel arrangement after the baffle front end along conductive cloth advancing direction on the top surface of design groove and turnover plate homonymy. The utility model has the advantages of it is, at first, press the middle section on the electric cloth width direction on the bottom surface of constant head tank through the die that has the face of cylinder the same with the design groove, make electric cloth broad one side close to the baffle, make electric cloth narrow one side close to the turn over the folded plate, through the setting of baffle, make electric cloth of broad one side electric cloth make originally with the parallel another turn over the line of turning over of objective table top surface outside turn over to the state perpendicular with objective table top surface, afterwards through the setting of design board, will turn over the conductive cloth of perk through the baffle and press on the top surface of the electric cloth after turning over the folded plate before, can accomplish the holistic parcel of electric cloth, because the baffle only need have the lateral wall that sets up perpendicularly with the top surface of objective table, and turn over folded plate and design board's bottom surface need with the top surface parallel arrangement of objective table push down electric cloth, the width demand of baffle is less than the width demand of turning over folded plate and design board, make the objective table can set up more groups design groove and corresponding turn over the subassembly under the state of same width, thereby promote parcel efficiency. The second turnover plate in the prior art directly turns the conductive cloth on the wider side outside the shaping groove by 180 degrees and presses the conductive cloth on the top surface of the turned narrower conductive cloth, a baffle plate is adopted in the utility model to turn the conductive cloth on the wider side outside the shaping groove by 90 degrees, then the conductive cloth on the side is turned over again by 90 degrees and pressed on the top surface of the turned narrower conductive cloth through the shaping plate, the same function can be realized by utilizing a narrower space, and the turning over process of turning over is smoother by turning over 180 degrees once for two times by 90 degrees, so that the defect of the conductive cloth and even the damage of the conductive cloth caused by the fact that the conductive cloth is wrapped when the turning over angle is overlarge suddenly is avoided.

Further, the entrance of the shaping groove is provided with a turnover guide opening with the section width gradually reduced along the advancing direction of the conductive cloth at two sides of the shaping groove. The conductive cloth folding guide opening is arranged, so that the conductive cloth is enabled to be transitionally upwards tilted at two sides before being folded through the folding plate, and the subsequent folding is convenient.

Further, the depth of the turnover guide opening is the same as the depth of the shaping groove. The conductive cloth can directly enter the shaping groove after passing through the turnover guide opening.

Further, the objective table is provided with a plane groove for placing the plane part of the folded conductive cloth on one side of the top surface of the shaping groove, which is provided with the folded plate. The electric cloth folding device has the function that through the arrangement of the plane grooves, the electric cloth folded by the folding device can be placed.

Further, the side wall of the plane groove far away from the shaping groove is communicated with a turnover plate mounting groove for mounting the turnover plate.

Furthermore, a gap is reserved between one part of the turnover plate and the side wall of the shaping groove, which is right above the shaping groove and is provided with a baffle plate. The folding plate has the function that through the design of the length of the folding plate, the other side which is not folded is convenient to continuously advance through the gap between the folding plate and the side wall of the shaping groove.

Further, the side wall of the baffle facing the shaping groove and the side wall of the shaping groove adjacent to the baffle are in the same plane. The side wall of the shaping groove is perpendicular to the top surface of the object stage, and the baffle plate can be folded by 90 degrees to the conductive cloth contacted with the baffle plate due to the arrangement of the position of the baffle plate.

Further, an auxiliary pressing plate is arranged behind the shaping plate along the advancing direction of the conductive cloth on the top surface of the shaping groove. The conductive cloth can be extruded and formed in a turnover state by the arrangement of the auxiliary pressing plate.

Further, the side wall of the plane groove far away from the shaping groove is communicated with a shaping plate mounting groove for mounting the shaping plate.

Further, the width of the baffle plate in the advancing direction of the conductive cloth is smaller than the width of the turnover plate in the advancing direction of the conductive cloth. The design through baffle width can practice thrift the space on the objective table top surface, can set up more multiunit design groove and turn over a subassembly to promote work efficiency.

The utility model has the beneficial effects that:

according to the utility model, the baffle plate is adopted to enable the conductive cloth at one wider side outside the shaping groove to be folded for 90 degrees, and then the side conductive cloth is folded for 90 degrees again through the shaping plate and is pressed on the top surface of the folded narrower conductive cloth, so that the same function as the prior art can be realized by utilizing a narrower space, more shaping grooves and corresponding folding assemblies can be arranged in the same space, and the wrapping efficiency is improved; the turnover process is smoother by turning over one 180-degree turnover into two 90-degree turnover, so that the defect that the conductive cloth is wrapped and even damaged due to overlarge turnover angle is avoided.

Drawings

FIG. 1 is a schematic top view of an automated wrapping jig according to the prior art;

FIG. 2 is a schematic perspective view of the present utility model;

FIG. 3 is a schematic top view of the present utility model;

FIG. 4 is a schematic diagram of the front view structure of the present utility model;

FIG. 5 is a schematic top view of the stage;

FIG. 6 is a schematic cross-sectional view of the tuck-back panel when wrapping the conductive cloth;

fig. 7 is a schematic cross-sectional view of the shaping plate at the time of wrapping the conductive cloth.

The reference numerals are explained as follows: 1. a conductive cloth; 2. an objective table; 3. a shaping groove; 4. a folded plate is turned over; 5. a baffle; 6. turning over the guide opening; 7. a planar slot; 8. shaping plates; 9. a folded plate mounting groove; 10. a sizing plate mounting groove; 11. a first flap; 12. a second flap; 13. an auxiliary pressing plate.

Detailed Description

The present utility model will be described in further detail with reference to examples and drawings, but embodiments of the present utility model are not limited thereto.

In the description of the present utility model, it should be noted that, directions or positional relationships indicated by terms such as "center", "upper", "lower", "left", "right", "vertical", "longitudinal", "lateral", "horizontal", "inner", "outer", "front", "rear", "top", "bottom", etc., are directions or positional relationships based on those shown in the drawings, or are directions or positional relationships conventionally put in use of the inventive product, are merely for convenience of describing the present utility model and for simplifying the description, and are not indicative or implying that the apparatus or element to be referred to must have a specific direction, be constructed and operated in a specific direction, and therefore should not be construed as limiting the present utility model.

In the description of the present utility model, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed," "configured," "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

Example 1

The utility model provides a unilateral preforming automatic parcel tool of cotton production system of hollow conductive bubble of ladybug, as shown in fig. 2, it locates on the production line of circular knife cross cutting machine, be applied to inside conductive cloth 1 that has two folding edges, including objective table 2, be equipped with two sets of design groove 3 on the objective table 2 top surface, design groove 3 is the cylindric, the bottom surface of design groove 3 is the cylindric, the opposite both sides of design groove 3 top surface are equipped with turnover plate 4 and baffle 5 in proper order along the direction that conductive cloth 1 march, turnover plate 4 and objective table 2 top surface parallel arrangement, baffle 5 and objective table 2 top surface set up perpendicularly, be equipped with on the top surface of design groove 3 and turnover plate 4 homonymy along conductive cloth 1 march direction be equipped with design groove 3 top surface parallel arrangement's shaping plate 8 behind baffle 5 front end. The electric cloth 1 is pressed on the bottom surface of the positioning groove through the tube core with the same cylindrical surface as the shaping groove 3, one wider side of the electric cloth 1 is adjacent to the baffle 5, one narrower side of the electric cloth 1 is adjacent to the folded plate 4, the electric cloth 1 outside the other folded line which is originally parallel to the top surface of the object stage 2 is folded to be in a state perpendicular to the top surface of the object stage 2 through the arrangement of the baffle 5, then the electric cloth 1 which is folded by the baffle 5 is pressed on the top surface of the electric cloth 1 which is folded by the folded plate 4 before through the arrangement of the shaping plate 8, and the whole package of the electric cloth 1 can be completed, as the baffle 5 only needs to be provided with the side wall which is perpendicular to the top surface of the object stage 2, the bottom surfaces of the folded plate 4 and the shaping plate 8 need to be parallel to the top surface of the object stage 2 to press the electric cloth 1, the width requirement of the baffle 5 is lower than the width requirement of the folded plate 4 and the shaping plate 8, and more groups of shaping grooves 3 and corresponding components can be arranged under the state of the same width, so that the object stage packaging efficiency is improved. The second folding plate 12 in the prior art directly folds the conductive cloth 1 on the wider side outside the shaping groove 3 by 180 degrees and presses the conductive cloth 1 on the top surface of the folded narrower conductive cloth 1, in the utility model, the baffle plate 5 is adopted to fold the conductive cloth 1 on the wider side outside the shaping groove 3 by 90 degrees, then the conductive cloth 1 on the side is folded by 90 degrees again through the shaping plate 8 and pressed on the top surface of the folded narrower conductive cloth 1, not only can the same function be realized by utilizing a narrower space, but also the folding process of folding is smoother by converting one 180-degree folding into two 90-degree folding, and the defect that the conductive cloth 1 is produced when the conductive cloth 1 is wrapped and even the conductive cloth 1 is damaged due to the fact that the folding angle is overlarge suddenly is avoided.

Specifically, as shown in fig. 3, the entrance of the shaping groove 3 is provided with a turnover guide opening 6 with a cross-section width gradually reduced along the advancing direction of the conductive cloth 1 at two sides of the shaping groove 3. The conductive cloth 1 is enabled to be turned upwards in a transition mode before being turned through the turning plate 4 through the arrangement of the turning guide opening 6, so that follow-up turning is facilitated.

Specifically, as shown in fig. 4, the depth of the turnover guide opening 6 is the same as the depth of the shaping groove 3. The conductive cloth 1 passing through the turnover guide opening 6 can directly enter the shaping groove 3.

Specifically, as shown in fig. 2, a plane groove 7 for placing the plane part of the folded conductive cloth 1 is provided on one side of the top surface of the shaping groove 3 where the folded plate 4 is provided. The function is that the conductive cloth 1 folded can be placed by the arrangement of the plane groove 7.

Specifically, as shown in fig. 5, a turnover plate mounting groove 9 for mounting the turnover plate 4 is communicated with the side wall of the plane groove 7 far away from the shaping groove 3.

Specifically, as shown in fig. 3, a part of the turnover plate 4 is located right above the shaping groove 3, and a gap is reserved between the turnover plate and the side wall of the shaping groove 3, which is provided with the baffle plate 5. The folding plate has the effect that the folding plate 4 is designed to be convenient for the other side which is not folded to continuously advance through the gap between the folding plate 4 and the side wall of the shaping groove 3.

Specifically, as shown in fig. 4, the side wall of the baffle plate 5 facing the shaping groove 3 is in the same plane with the side wall of the shaping groove 3 adjacent to the baffle plate 5. The side wall of the shaping groove 3 is perpendicular to the top surface of the object stage 2, and the baffle plate 5 is arranged at the position, so that the baffle plate 5 can fold over the conductive cloth 1 contacted with the baffle plate by 90 degrees.

Specifically, as shown in fig. 2, an auxiliary pressing plate 13 is disposed on the top surface of the shaping groove 3 after the shaping plate 8 along the advancing direction of the conductive cloth 1. The conductive cloth 1 can be extruded while being kept in a folded state by providing the auxiliary pressing plate 13.

Specifically, as shown in fig. 5, a shaping plate mounting groove 10 for mounting the shaping plate 8 is communicated with the side wall of the plane groove 7 far away from the shaping groove 3.

Specifically, as shown in fig. 3, the width of the baffle 5 in the travelling direction of the conductive cloth 1 is smaller than the width of the turndown plate 4 in the travelling direction of the conductive cloth 1. The effect is, through the design of baffle 5 width, can practice thrift the space on the objective table 2 top surface, can set up more multiunit design groove 3 and turn over a subassembly thereof to promote work efficiency.

The working principle of this embodiment is explained as follows: firstly, the middle section in the width direction of the conductive cloth 1 is pressed on the bottom surface of the positioning groove through the tube core with the cylindrical surface which is the same as the shaping groove 3, one side of the conductive cloth 1 is adjacent to the baffle 5, one side of the conductive cloth 1 is adjacent to the folded plate 4, as shown in fig. 6, one side of the conductive cloth 1 is folded along one folded edge through the arrangement of the folded plate 4, the conductive cloth 1 outside the folded plate is folded onto the top surface of the tube core, as shown in fig. 7, then the conductive cloth 1 outside the other folded line which is originally parallel to the top surface of the objective table 2 is folded into a state which is perpendicular to the top surface of the objective table 2 through the arrangement of the baffle 5, then the conductive cloth 1 which is folded and tilted through the baffle 5 is pressed on the top surface of the conductive cloth 1 which is folded through the folded plate 4 before through the shaping plate 8, so that the whole package of the conductive cloth 1 can be completed, the material belt at the front and back of the package jig is straightened through a circular knife machine, the subsequent conductive cloth 1 can be folded along with the conductive cloth 1 which is continuously passed through the folded 4, the baffle 5 and the shaping plate 8 in turn-up in turn, the automatic folded plate 1 is folded, the conductive cloth is perpendicular to the top surface of the objective table 2, the conductive cloth is folded, and the whole is folded.

The foregoing description of the preferred embodiment of the utility model is not intended to limit the utility model in any way, but rather to cover all modifications, equivalents, improvements and alternatives falling within the spirit and principles of the utility model.

Claims (10)

1. The utility model provides a unilateral preforming automatic parcel tool of cotton production system of hollow electrically conductive bubble of ladybug, it locates on the production line of circular knife cross cutting machine, is applied to inside electrically conductive cloth (1) that have two flanging, including objective table (2), is equipped with design groove (3) on objective table (2) top surface, and design groove (3) are the cylinder form, and the bottom surface of design groove (3) is the cylinder form, its characterized in that: opposite sides of the top surface of the shaping groove (3) are sequentially provided with a turnover plate (4) and a baffle plate (5) along the advancing direction of the conductive cloth (1), the turnover plate (4) is arranged in parallel with the top surface of the objective table (2), the baffle plate (5) is vertically arranged with the top surface of the objective table (2), and the shaping groove (3) and the top surface of the same side of the turnover plate (4) are provided with a shaping plate (8) which is arranged in parallel with the top surface of the shaping groove (3) after the front end of the baffle plate (5) along the advancing direction of the conductive cloth (1).

2. The unilateral preforming automatic wrapping jig of a ladybug-shaped hollow conductive foam production system according to claim 1, wherein: the entrance of the shaping groove (3) is provided with a turnover guide opening (6) with the section width gradually reduced to two sides of the shaping groove (3) along the advancing direction of the conductive cloth (1).

3. The automatic single-sided tabletting wrapping jig of the production system of the ladybug-shaped hollow conductive foam according to claim 2, wherein: the depth of the turnover guide opening (6) is the same as that of the shaping groove (3).

4. The unilateral preforming automatic wrapping jig of a ladybug-shaped hollow conductive foam production system according to claim 1, wherein: the objective table (2) is provided with a plane groove (7) for placing the plane part of the folded conductive cloth (1) at one side of the top surface of the shaping groove (3) provided with the folded plate (4).

5. The automatic single-sided sheeting wrapping jig of the production system of the ladybug-shaped hollow conductive foam according to claim 4, wherein: the side wall of the plane groove (7) far away from the shaping groove (3) is communicated with a turnover plate mounting groove (9) for mounting the turnover plate (4).

6. The unilateral preforming automatic wrapping jig of a ladybug-shaped hollow conductive foam production system according to claim 1, wherein: and a gap is reserved between one part of the turnover plate (4) and the side wall of the shaping groove (3) which is provided with the baffle plate (5).

7. The unilateral preforming automatic wrapping jig of a ladybug-shaped hollow conductive foam production system according to claim 1, wherein: the side wall of the baffle plate (5) facing the shaping groove (3) and the side wall of the shaping groove (3) adjacent to the baffle plate (5) are positioned in the same plane.

8. The unilateral preforming automatic wrapping jig of a ladybug-shaped hollow conductive foam production system according to claim 1, wherein: an auxiliary pressing plate (13) is arranged behind the shaping plate (8) along the advancing direction of the conductive cloth (1) on the top surface of the shaping groove (3).

9. The automatic single-sided sheeting wrapping jig of the production system of the ladybug-shaped hollow conductive foam according to claim 4, wherein: the side wall of the plane groove (7) far away from the shaping groove (3) is communicated with a shaping plate mounting groove (10) for mounting the shaping plate (8).

10. The unilateral preforming automatic wrapping jig of a ladybug-shaped hollow conductive foam production system according to claim 1, wherein: the width of the baffle plate (5) in the advancing direction of the conductive cloth (1) is smaller than the width of the turnover plate (4) in the advancing direction of the conductive cloth (1).

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