CN219408183U - Mechanism for online overturning of long material by 180 degrees - Google Patents

Abstract

The utility model relates to the technical field of material packaging, in particular to a mechanism for online turning of a long material by 180 degrees, which comprises a transmission frame, wherein a pushing centering component is respectively arranged in the middle position of one side edge of the transmission frame and near the two ends of the transmission frame, a lifting component is arranged on the transmission frame between every two pushing centering components, two ends of the transmission frame are oppositely provided with a main turning component, an auxiliary turning component is arranged on the transmission frame near any lifting component, the structure of the auxiliary turning component is the same as that of the main turning component, and an avoidance area for the lifting component and the auxiliary turning component to act is arranged on the transmission frame. The utility model can ensure 180-degree turnover of the long material, realizes automation, does not need manual operation, reduces labor cost and improves working efficiency; the full-automatic work improves the reliability and reduces errors caused by manual operation; the main overturning assembly is overlapped by three cylinders, so that multidirectional movement is realized, and the main overturning assembly is simple and reliable.

Description

Mechanism for online overturning of long material by 180 degrees

Technical Field

The utility model relates to the technical field of material packaging, in particular to a mechanism for online overturning of a long material by 180 degrees.

Background

Some long materials need to be overturned below the product at the joint after the package is completed. At present, for on-line overturning of long materials, a manual operation method is frequently adopted, and the following defects exist:

1. after the packaging material is packaged, manual overturning is frequently adopted, so that the efficiency is low;

2. two persons are required to complete the overturning action in a matching way, so that the labor cost is high;

3. the manual operation has potential safety hazard;

4. the speed of operators is required, and the packaging rhythm is not kept up.

Disclosure of Invention

The utility model aims to solve the technical problems that: overcomes the defects in the prior art and provides a mechanism for turning over a long material 180 degrees on line.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a mechanism for long material turns over 180 on line, includes the transmission frame, the intermediate position at transmission frame one side border and be close to its both ends position department respectively are provided with a propelling movement centering subassembly, install lifting unit on the transmission frame between the two liang propelling movement centering subassemblies, the both ends of transmission frame are provided with a main upset subassembly relatively, are close to arbitrary lifting unit department on the transmission frame and are provided with an auxiliary upset subassembly, the structure of auxiliary upset subassembly is the same with the structure of main upset subassembly, has the area of dodging that supplies lifting unit and auxiliary upset subassembly to move on the transmission frame.

Further, the propelling movement centering subassembly includes centering cylinder support, centering cylinder and centering board, centering cylinder support is L shape, and its lower extreme is equipped with the connecting plate of fixed and transmission frame side, and its upper end is equipped with the cylinder mounting panel, centering cylinder installs on the cylinder mounting panel, and centering cylinder's cylinder pole is connected centering board.

Still further, the centering plate includes backup pad and push plate, the backup pad is the right-angle plate, the push plate is a folded sheet, and it comprises horizontal segment and slope section, the upper surface at the push plate is connected to the horizontal segment, and has seted up the bar hole on the horizontal segment, slope section slant sets up downwards.

Further, the lifting assembly comprises a lifting cylinder mounting plate, a lifting cylinder and a supporting seat, wherein the lifting cylinder mounting plate is vertically fixed on a cross beam of the transmission frame, the lifting cylinder is mounted on the lifting cylinder mounting plate, a cylinder rod of the lifting cylinder is connected with the supporting seat, and the supporting seat is provided with a protrusion for limiting the strip-shaped material.

Further, the main upset subassembly includes lifting cylinder, lifting cylinder mount pad, presss from both sides tight cylinder mounting panel, presss from both sides tight cylinder, revolving cylinder mounting panel, revolving cylinder and upset seat, the tip at the transmission frame is fixed to the lifting cylinder mount pad, the lifting cylinder is vertical to be installed on an terminal surface of lifting cylinder mount pad, connects on the cylinder pole of lifting cylinder and presss from both sides tight cylinder mounting panel, it installs on pressing from both sides tight cylinder mounting panel to press from both sides tight cylinder, the cylinder pole of pressing from both sides tight cylinder is connected revolving cylinder mounting panel, revolving cylinder installs on revolving cylinder mounting panel, revolving cylinder's output is connected and is turned over the seat.

Furthermore, the overturning seat is provided with two clamping jaws, and an elastic cushion block is arranged on the inner wall of each clamping jaw through a butterfly nut.

Further, the auxiliary overturning assembly is mounted on a longitudinal beam of the transmission frame.

The beneficial effects of the utility model are as follows: the utility model can ensure 180-degree turnover of the long material, realizes automation, does not need manual operation, reduces labor cost and improves working efficiency; the full-automatic work improves the reliability and reduces errors caused by manual operation; the main overturning assembly is overlapped by three cylinders, so that multidirectional movement is realized, and the main overturning assembly is simple and reliable.

Drawings

The utility model will be further described with reference to the drawings and embodiments.

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic structural view of a push centering component in the present utility model.

Fig. 3 is a schematic structural view of a lifting assembly according to the present utility model.

Fig. 4 is a schematic view of the structure of the main flipping assembly of the present utility model.

In the figure:

1. the transmission frame is provided with a plurality of transmission grooves,

2. centering assembly 21 centering cylinder bracket 22 centering cylinder 23 centering plate 231 support plate 232 push plate 2321 horizontal section 2322 inclined section 23211 bar aperture 24 connecting plate 25 cylinder mounting plate,

3. lifting component 31, lifting cylinder mounting plate 32, lifting cylinder 33, supporting seat 331 and projection,

4. a main turning assembly 41, a lifting cylinder 42, a lifting cylinder mounting seat 43, a clamping cylinder mounting plate 44, a clamping cylinder 45, a rotary cylinder mounting plate 46, a rotary cylinder 47, a turning seat 48, an elastic cushion block,

5. an auxiliary overturning assembly.

Detailed Description

The utility model will now be further described with reference to the accompanying drawings. These drawings are simplified schematic views illustrating the basic structure of the present utility model by way of illustration only, and thus show only the constitution related to the present utility model.

As shown in fig. 1, a mechanism for online turning of a long material by 180 degrees comprises a transmission frame 1, wherein a push centering component 2 is respectively arranged at the middle position of one side edge of the transmission frame 1 and the positions close to the two ends of the transmission frame (during actual production, a standby push centering component 2 is arranged beside the transmission frame, lifting components 3 are arranged on the transmission frame 1 between every two push centering components 2, a main turning component 4 is oppositely arranged at the two ends of the transmission frame 1, an auxiliary turning component 5 is arranged on the transmission frame 1 close to any lifting component 3, the structure of the auxiliary turning component 5 is identical to that of the main turning component 4, and an avoidance area for the lifting components 3 and the auxiliary turning components 5 to act is arranged on the transmission frame 1.

As shown in fig. 2, the push centering assembly 2 comprises a centering cylinder bracket 21, a centering cylinder 22 and a centering plate 23, wherein the centering cylinder bracket 21 is L-shaped, a connecting plate 24 for fixing the side edge of the transmission frame 1 is arranged at the lower end of the centering cylinder bracket, a cylinder mounting plate 25 is arranged at the upper end of the centering cylinder bracket, the centering cylinder 22 is mounted on the cylinder mounting plate 25, and a cylinder rod of the centering cylinder 22 is connected with the centering plate 23. The centering cylinder 22 arranged on the centering cylinder bracket 21 is connected with the centering plate 23 through a screw, the centering cylinder 22 pushes the cylinder rod to extend outwards under the control of the electromagnetic valve, and the centering plate 23 connected on the cylinder rod can push the long material to enter the position right above the lifting assembly 2.

Specifically, the centering plate 23 includes a supporting plate 231 and a pushing plate 232, the supporting plate 231 is a right-angle plate, the pushing plate 232 is a folding plate, the folding plate is composed of a horizontal section 2321 and an inclined section 2322, the horizontal section 2321 is connected to the upper surface of the pushing plate 232, a strip-shaped hole 23211 is formed in the horizontal section 2321, the inclined section 2322 is arranged obliquely downwards, and the length of the pushing plate 232 for outputting the supporting plate 231 can be adjusted through a bolt and the strip-shaped hole 23211.

As shown in fig. 3, the lifting assembly 3 includes a lifting cylinder mounting plate 31, a lifting cylinder 32 and a supporting seat 33, the lifting cylinder mounting plate 31 is vertically fixed on the beam of the conveying frame 1, the lifting cylinder 32 is mounted on the lifting cylinder mounting plate 31, the cylinder rod of the lifting cylinder 32 is connected with the supporting seat 33, and the supporting seat 33 is provided with a protrusion 331 for limiting the strip-shaped material. The lifting cylinder 32 fixed on the lifting cylinder mounting plate 31 pushes the supporting seat 33 connected with the cylinder rod upwards under the control of the electromagnetic valve, and the supporting seat 33 lifts the long material right above to a certain height upwards.

As shown in fig. 1 and 4, the main turning assembly 4 includes a lifting cylinder 41, a lifting cylinder mounting seat 42, a clamping cylinder mounting plate 43, a clamping cylinder 44, a rotating cylinder mounting plate 45, a rotating cylinder 46 and a turning seat 47, wherein the lifting cylinder mounting seat 42 is fixed at the end of the transmission frame 1, the lifting cylinder 41 is vertically mounted on one end surface of the lifting cylinder mounting seat 42, the clamping cylinder mounting plate 43 is connected to a cylinder rod of the lifting cylinder 41, the clamping cylinder 44 is mounted on the clamping cylinder mounting plate 43, the cylinder rod of the clamping cylinder 44 is connected with the rotating cylinder mounting plate 45, the rotating cylinder 46 is mounted on the rotating cylinder mounting plate 15, and the output end of the rotating cylinder 46 is connected with the turning seat 47. The lifting cylinder 41 acts to lift the clamping cylinder 44 fixed on the clamping cylinder mounting plate 45 to a preset height, so that the turnover seat 47 and the long material are at the same height, then the clamping cylinder 44 pushes the rotating cylinder mounting plate 45 mounted on the cylinder rod head under the control of the electromagnetic valve, the two ends of the long material move towards the middle simultaneously, the turnover seat 47 fixed with the rotating cylinder 46 clamps the material from the two ends of the long material simultaneously after the cylinder stroke is in place, and then the rotating cylinder 46 rotates 180 degrees to drive the turnover seat 47 and the long material to complete 180-degree rotation.

Specifically, the turnover seat 47 is provided with two clamping jaws, and an elastic cushion block 48 is mounted on the inner wall of each clamping jaw through a butterfly nut. The arrangement avoids the clamping jaw from damaging long fiber materials.

In addition, an auxiliary roll-over assembly 5 is mounted on the longitudinal beam of the transfer frame 1.

The specific working principle is as follows: the centering cylinder 22 pushes the long material to enter the position right above the lifting assembly 3, then the lifting cylinder 32 lifts the long material upwards to reach a preset height, the lifting cylinder 41 of the main overturning assembly 4 lifts upwards to enable the overturning seat 47 to be at the same height as the long material, then the clamping cylinders 44 at two ends of the long material simultaneously move towards the middle from two ends of the long material, the overturning seat 47 mounted on the rotating cylinder 46 is pushed to clamp the material, then the rotating cylinder 46 drives the overturning seat 47 to rotate 180 degrees with the material, and in the process of the action of the main overturning assembly 4, the auxiliary overturning assembly 5 moves synchronously along with the overturning seat, so that the overturning stability is ensured.

The above embodiments are only for illustrating the technical concept and features of the present utility model, and are intended to enable those skilled in the art to understand the content of the present utility model and to implement the same, but are not intended to limit the scope of the present utility model, and all equivalent changes or modifications made according to the spirit of the present utility model should be included in the scope of the present utility model.

Claims (7)

1. A mechanism for long material turns over 180 on line, includes transmission frame, its characterized in that: the middle position of one side edge of the transmission frame and the positions close to the two ends of the transmission frame are respectively provided with a push centering component, lifting components are arranged on the transmission frame between every two push centering components, the two ends of the transmission frame are oppositely provided with a main overturning component, an auxiliary overturning component is arranged on the transmission frame close to any lifting component, the structure of the auxiliary overturning component is the same as that of the main overturning component, and an avoidance area for the lifting components and the auxiliary overturning components to act is arranged on the transmission frame.

2. A mechanism for on-line turning of elongated materials 180 ° according to claim 1, characterized in that: the pushing centering assembly comprises a centering cylinder bracket, a centering cylinder and a centering plate, wherein the centering cylinder bracket is L-shaped, a connecting plate for fixing and conveying the side edge of the frame is arranged at the lower end of the centering cylinder bracket, a cylinder mounting plate is arranged at the upper end of the centering cylinder bracket, the centering cylinder is mounted on the cylinder mounting plate, and a cylinder rod of the centering cylinder is connected with the centering plate.

3. A mechanism for on-line turning of elongated materials 180 ° according to claim 2, characterized in that: the centering plate comprises a supporting plate and a pushing plate, wherein the supporting plate is a right-angle plate, the pushing plate is a folding plate and consists of a horizontal section and an inclined section, the horizontal section is connected to the upper surface of the pushing plate, a strip-shaped hole is formed in the horizontal section, and the inclined section is obliquely arranged downwards.

4. A mechanism for on-line turning of elongated materials 180 ° according to claim 1, characterized in that: the lifting assembly comprises a lifting cylinder mounting plate, a lifting cylinder and a supporting seat, wherein the lifting cylinder mounting plate is vertically fixed on a cross beam of the transmission frame, the lifting cylinder is mounted on the lifting cylinder mounting plate, a cylinder rod of the lifting cylinder is connected with the supporting seat, and the supporting seat is provided with a protrusion for limiting the strip-shaped material.

5. A mechanism for on-line turning of elongated materials 180 ° according to claim 1, characterized in that: the main upset subassembly includes lifting cylinder, lifting cylinder mount pad, presss from both sides tight cylinder mounting panel, presss from both sides tight cylinder, revolving cylinder mounting panel, revolving cylinder and upset seat, the tip at the transmission frame is fixed to lifting cylinder mount pad, lifting cylinder is vertical to be installed on an terminal surface of lifting cylinder mount pad, connects on the cylinder pole of lifting cylinder and presss from both sides tight cylinder mounting panel, it installs on pressing from both sides tight cylinder mounting panel to press from both sides tight cylinder, presss from both sides tight cylinder's cylinder pole and connects revolving cylinder mounting panel, revolving cylinder installs on revolving cylinder mounting panel, revolving cylinder's output is connected and is turned over the seat.

6. A mechanism for on-line turning of elongated items 180 ° according to claim 5, wherein: the overturning seat is provided with two clamping jaws, and an elastic cushion block is arranged on the inner wall of each clamping jaw through a butterfly nut.

7. A mechanism for on-line turning of elongated materials 180 ° according to claim 1, characterized in that: the auxiliary overturning assembly is mounted on a longitudinal beam of the transmission frame.