CN220698125U - Automatic molding pushing device for packaging buckle - Google Patents

Abstract

The utility model discloses an automatic forming pushing device for a packing buckle, which comprises a conveying mechanism, a positioning mechanism, a forming mechanism, a core mold mechanism and a pushing mechanism, wherein the positioning mechanism is arranged on the conveying mechanism; the positioning mechanism and the forming mechanism are oppositely arranged, the core mold mechanism is positioned between the positioning mechanism and the forming mechanism, and the pushing mechanism is arranged right above the core mold mechanism; the steel belt is conveyed to the core mold mechanism by the conveying mechanism, the positioning mechanism and the forming mechanism are matched to form the packing buckle, and the formed packing buckle is separated from the core mold mechanism by the pushing mechanism to be pushed to a designated position; the utility model integrates multiple working procedures, can automatically realize automatic transmission, shearing, forming and pushing of the packing buckle belt through the cooperation of the multiple cylinders, and has the advantages of simple structure, convenient use, high production efficiency, low production cost and easy control of product quality.

Description

Automatic molding pushing device for packaging buckle

Technical Field

The utility model belongs to the technical field of packing buckles, and particularly relates to an automatic forming pushing device for packing buckles.

Background

The statements herein merely provide background information related to the present disclosure and may not necessarily constitute prior art.

In the product packaging industry, the packaging buckle is a packaging mode which replaces the traditional nylon rope and manual packaging belt, the packaging task is realized by means of the interaction of the pulling force of the packaging belt on the buckling legs of the packaging buckle and the binding force of the buckling rings on the buckling legs, and the packaging buckle can be packaged and used under the condition of not holding any tool and has the advantages of simplicity in operation, convenience in carrying and reusability, so that the packaging buckle is widely applied in the product packaging industry.

At present, the existing process for processing the packing button is as follows: an operator firstly straightens a coil of metal wires by means of a straightening mechanism, and then cuts the straightened metal wires into metal wire sections with required lengths by means of a cutting mechanism; then, the operator carries the cut metal wire rod section to a bending mechanism at another working environment, places the metal wire rod section in the bending mechanism, and bends the metal wire rod section for a plurality of times by the bending mechanism, so that the required packing buckle is formed. The method is complex in operation, low in production efficiency and not suitable for automatic production.

Chinese patent No. CN107716774a discloses a full-automatic packing button forming machine, which can realize automatic forming of the packing button, but the above device has the following problems, and the forming of the packing button requires three procedures, resulting in complex structure of the device; in addition, the formed packing button still needs to be manually taken down, and the formed packing button cannot be automatically pushed to the designated position, so that the production efficiency of the packing button is low.

Disclosure of Invention

The utility model aims to provide an automatic forming and pushing device for a packing buckle, which can automatically realize automatic transmission, shearing, forming and pushing of a packing buckle belt and improve the production efficiency of the packing buckle.

In order to achieve the above object, the present utility model is realized by the following technical scheme:

in a first aspect, an embodiment of the present utility model provides an automatic molding and pushing device for a packaging buckle, including a conveying mechanism, a positioning mechanism, a molding mechanism, a core mold mechanism and a pushing mechanism; the positioning mechanism and the forming mechanism are oppositely arranged, the core mold mechanism is positioned between the positioning mechanism and the forming mechanism, and the pushing mechanism is arranged right above the core mold mechanism; the steel belt is conveyed to the core mold mechanism by the conveying mechanism, the positioning mechanism is matched with the forming mechanism to form the packing buckle, and the pushing mechanism pushes the formed packing buckle to a designated position after separating from the core mold mechanism.

As a further technical scheme, the conveying mechanism comprises a motor, a driving wheel shaft, a pinch roller cylinder, a driven wheel shaft and a guide wheel, wherein a coiled steel belt is placed on the driving wheel shaft, and the pinch roller cylinder is connected with the driven wheel shaft.

As a further technical scheme, the motor drives the driving wheel shaft to rotate, and the pinch roller cylinder acts to drive the driven wheel shaft to grind the steel belt to move in the steel belt track along the guide wheel.

As a further technical scheme, the positioning mechanism comprises a positioning air cylinder and a positioning female die, the positioning air cylinder drives the positioning female die to move, and the positioning female die is used for positioning the end part of the steel belt.

As a further technical scheme, the forming mechanism comprises a forming clamp and a forming cylinder, and the forming cylinder drives the forming clamp to move.

As a further technical scheme, the forming clamp comprises two forming clamps, wherein a blade is arranged on the forming clamp far away from the end part of the steel belt, and a limiting block is arranged between the two forming clamps.

As a further technical scheme, the core mold mechanism comprises a core mold and a core mold cylinder, and the core mold cylinder drives the core mold to move.

As a further technical scheme, push mechanism includes push cylinder and presss from both sides material finger clamp, push cylinder drives and presss from both sides material finger clamp and presss from both sides shaping packing knot, detains the shaping packing and sends to appointed position.

As a further technical scheme, the clamping finger clamps comprise two first clamping finger clamps and two second clamping finger clamps which are oppositely arranged.

As a further technical scheme, an upper positioning block is further arranged between the positioning mechanism and the forming mechanism, and the upper positioning block is used for positioning the upper edge of the steel belt in the forming process.

The beneficial effects of the embodiment of the utility model are as follows:

according to the automatic forming pushing device for the packing buckle, the steel belt is automatically conveyed to the forming position through the arranged conveying mechanism, the steel belt is processed into the packing buckle through the cooperation of the positioning mechanism, the forming mechanism and the core mold mechanism, the formed packing buckle is conveyed to the designated position through the arranged pushing mechanism, full-automatic production of the packing buckle is achieved, and production efficiency of the packing buckle is improved.

The automatic forming and pushing device for the packing buckle integrates multiple working procedures, can automatically realize automatic transmission, shearing, forming and pushing of the packing buckle belt through the cooperation of the multiple cylinders, and has the advantages of simple structure, convenience in use, high production efficiency, low production cost and easiness in control of product quality.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model.

FIG. 1 is a schematic diagram of an automatic forming and pushing device for a packing buckle;

FIG. 2 is a schematic view of another angle of the automated forming pusher of the instant utility model;

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

FIG. 4 is a schematic illustration of the positioning mechanism, forming mechanism, mandrel mechanism and pushing mechanism of the present utility model in cooperation with one another;

fig. 5 is a schematic view of the structure of the present utility model at the location of the forming of the baling press.

The schematic is used only as schematic;

1, a conveying mechanism; 101. a motor; 102. a driving wheel axle; 103. a pinch roller cylinder; 104. driven wheel axle; 105. a guide wheel; 106. a steel belt track; 2. a positioning mechanism; 201. positioning a cylinder; 202. positioning a female die; 203. a baffle; 3. a forming mechanism; 301. a first forming cylinder; 302. a second molding cylinder; 303. a first forming clip; 304. a second forming clip; 305. a blade; 306. a limiting block; 4. a core mold mechanism; 401. a core mold; 402. a core mold cylinder; 5. a pushing mechanism; 501. a first clamping finger clip; 502. a second clamping finger clip; 503. a first pushing cylinder; 504. a second pushing cylinder; 505. a third pushing cylinder; 6. a steel strip; 7. an upper positioning block; 8. and forming a packing buckle.

Detailed Description

It should be noted that the following detailed description is exemplary and is intended to provide further explanation of the utility model. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs.

Example 1

In an exemplary embodiment of the present utility model, as shown in fig. 1 and 2, there is provided an automatic molding and pushing device for a packing button, which includes a conveying mechanism 1, a positioning mechanism 2, a molding mechanism 3, a core mold mechanism 4 and a pushing mechanism 5; wherein the positioning mechanism 2 and the forming mechanism 3 are oppositely arranged, the core mold mechanism 4 is positioned between the positioning mechanism 2 and the forming mechanism 3, and the pushing mechanism 5 is arranged right above the core mold mechanism 4; the conveying mechanism 1 conveys the steel belt to the core mould mechanism 4, the positioning mechanism 2 and the forming mechanism 3 are matched to form the packing buckle, and the pushing mechanism 5 pushes the formed packing buckle to a specified position after separating from the core mould mechanism 4.

As shown in fig. 3, the conveying mechanism comprises a motor 101, a driving wheel shaft 102, a pinch roller cylinder 103, a driven wheel shaft 104 and a guide wheel 105, wherein a coiled steel belt is placed on the driving wheel shaft 102, and the pinch roller cylinder 103 is connected with the driven wheel shaft. When the steel strip forming machine works, the motor 101 drives the driving wheel shaft 102 to rotate to release the steel strip, and the pinch roller cylinder 103 acts to drive the driven wheel shaft 104 to roll the steel strip to enter the steel strip track 106 along the guide wheel 105 and then move along the steel strip track 106 to reach the forming position.

As shown in fig. 4 and fig. 5, the positioning mechanism includes a positioning cylinder 201 and a positioning die 202, the positioning cylinder 201 drives the positioning die 202 to move, the positioning die is used for positioning the length of the steel strip to be packaged and buckled, a baffle 203 is arranged at one end of the positioning die, and the end of the steel strip is limited by the baffle 203.

Further, the forming mechanism 3 comprises forming clamps and forming cylinders, specifically, the forming clamps comprise two forming clamps 303 and 304 which are oppositely arranged, wherein a blade 305 is arranged on the forming clamp which is far away from the end of the steel belt, namely the second forming clamp 304, and the steel belt is cut off by the arranged blade 305. The molding cylinder comprises a first molding cylinder 301 and a second molding cylinder 302, the second molding cylinder 302 drives the first molding clamp 303 and the second molding clamp 304 to relatively move, and the first molding cylinder 301 drives the second molding cylinder 302 and the molding clamp to be close to or far away from the molding position.

Further, the core mold mechanism 4 comprises a core mold 401 and a core mold cylinder 402, the core mold cylinder 402 drives the core mold to move 401, the core mold 401 is located at a molding position or leaves the molding position, a limiting block 306 is arranged between the two molding clamps, the limiting block 306 and the core mold 401 of the core mold mechanism jointly act to support the steel belt against, an upper positioning block 7 is further arranged between the positioning mechanism and the molding mechanism, the upper positioning block 7 is used for positioning the upper edge of the steel belt in the molding process, and the steel belt is ensured to be motionless in the molding process through the structure.

Further, the pushing mechanism 5 comprises a pushing cylinder and a clamping finger clamp, and the pushing cylinder drives the clamping finger clamp to clamp the forming and packaging buckle and send the forming and packaging buckle to a designated position. Specifically, the clamping finger clip comprises a first clamping finger clip 501 and a second clamping finger clip 502 which are oppositely arranged, the pushing cylinder comprises a first pushing cylinder 503, a second pushing cylinder 504 and a third pushing cylinder 505, the third pushing cylinder 503 drives the first clamping finger clip 501 and the second clamping finger clip 502 to do relative motion, the second pushing cylinder 504 drives the third pushing cylinder and the two clamping finger clips to move up and down integrally, and the first pushing cylinder 503 drives the second pushing cylinder 504, the third pushing cylinder 505 and the two clamping finger clips to move transversely to drive the forming packaging buckle to be far away from the forming position.

In this embodiment, in order to realize the above functions, a plurality of plates are further provided to realize the installation between each mechanism, and meanwhile, a controller is further included, and the controller realizes the mutual cooperation between each mechanism by controlling the action of each cylinder, so as to complete the forming processing and pushing process of the packing buckle.

The specific working process of the automatic forming pushing device for the packaging buckle provided by the embodiment is as follows:

conveying steel belt: the motor 101 drives the driving wheel shaft 102 to rotate to release the steel coil, and the pinch roller cylinder 103 acts to drive the driven wheel shaft 104 to roll the steel belt to enter the steel belt track 106 along the guide wheel 105 and then move along the steel belt track 106 to reach the forming position.

Positioning steel belts: at the forming position, the baffle 203 on the positioning die 202 blocks the end of the steel strip, so that the steel strip stays at the forming position, and then the positioning cylinder 201 drives the positioning die to exit from the forming position.

And (3) forming a steel belt: the mandrel cylinder 402 drives the mandrel 401 to move upwards to reach the forming position, at this time, the wall surface of the mandrel 401 is attached to one side surface of the steel belt, then the first forming cylinder 301 drives the first forming clamp 303 and the second forming clamp 304 to be close to the steel belt, the limiting block 306 abuts against the other side surface of the steel belt, the blade 305 on the second forming clamp 304 cuts off the steel belt, meanwhile, the first forming clamp and the second forming clamp bend the steel belt, then under the action of the second forming cylinder, the first forming clamp and the second forming clamp relatively move to extrude the steel belt inwards to form a packing buckle, and after the packing buckle is formed, the forming clamp exits from the forming position.

Packaging buckle pushing: under the action of the second pushing cylinder 504, the clamping finger clips move downwards, the first clamping finger clip 501 and the second finger clip 502 are respectively located on two sides of the forming and packaging buckle, under the action of the third pushing cylinder 505, the first clamping finger clip 501 and the second finger clip 502 move relatively to clamp the forming and packaging buckle 8, at this time, the core mold cylinder 402 drives the core mold 401 to move downwards, and the core mold 401 exits from the forming position. Then under the action of the first pushing cylinder 503, the clamping finger clamps the forming and packing button to move outwards to leave the forming position and reach the appointed position, the appointed position can be used for placing the forming and packing button container, under the action of the third pushing cylinder 505, the clamping finger clamps release the forming and packing button, and then under the action of the first pushing cylinder and the second pushing cylinder, the clamping finger clamps return.

The above processes are continuously and repeatedly operated, so that the rapid forming and pushing of the packing buckle are realized, and the production efficiency of the packing buckle is improved.

The above description is only of the preferred embodiments of the present utility model and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (10)

1. The automatic forming and pushing device for the packing buckle is characterized by comprising a conveying mechanism, a positioning mechanism, a forming mechanism, a core mold mechanism and a pushing mechanism; the positioning mechanism and the forming mechanism are oppositely arranged, the core mold mechanism is positioned between the positioning mechanism and the forming mechanism, and the pushing mechanism is arranged right above the core mold mechanism; the steel belt is conveyed to the core mold mechanism by the conveying mechanism, the positioning mechanism is matched with the forming mechanism to form the packing buckle, and the pushing mechanism pushes the formed packing buckle to a designated position after separating from the core mold mechanism.

2. The automatic forming and pushing device for the packaging buckle according to claim 1, wherein the conveying mechanism comprises a motor, a driving wheel shaft, a pinch roller cylinder, a driven wheel shaft and a guide wheel, wherein a coiled steel belt is placed on the driving wheel shaft, and the pinch roller cylinder is connected with the driven wheel shaft.

3. The automatic molding and pushing device for the packaging buckle according to claim 2, wherein the motor drives the driving wheel shaft to rotate, and the pinch roller cylinder acts to drive the driven wheel shaft to pinch the steel belt to move along the guide wheel in the steel belt track.

4. The automatic molding and pushing device for the packaging buckle according to claim 1, wherein the positioning mechanism comprises a positioning cylinder and a positioning female die, the positioning cylinder drives the positioning female die to move, and the positioning female die is used for positioning the end part of the steel belt.

5. The automated molding and pushing device of a packaging buckle of claim 1, wherein the molding mechanism comprises a molding clamp and a molding cylinder, the molding cylinder driving the molding clamp to move.

6. The automated packaging button forming and pushing device of claim 5, wherein the forming clips comprise two forming clips, wherein a blade is disposed on the forming clip distal to the end of the steel strip, and a stopper is disposed between the forming clips.

7. The automated forming and pushing device of a packing button of claim 1, wherein the core mold mechanism comprises a core mold and a core mold cylinder, the core mold cylinder driving the core mold to move.

8. The automatic forming and pushing device for the packaging buckle according to claim 1, wherein the pushing mechanism comprises a pushing cylinder and a clamping finger clamp, and the pushing cylinder drives the clamping finger clamp to clamp the forming and packaging buckle and send the forming and packaging buckle to a specified position.

9. The automated packaging button forming pusher of claim 8 wherein the pinch finger grip comprises two oppositely disposed first and second pinch finger grips.

10. The automatic molding and pushing device of the packing buckle according to claim 1, wherein an upper positioning block is further arranged between the positioning mechanism and the molding mechanism, and the upper positioning block positions the upper edge of the steel belt in the molding process.