CN214652029U - Honeycomb core stacking mechanism - Google Patents

Abstract

The utility model discloses a honeycomb core stacking mechanism, which comprises a honeycomb core conveying part, a stacking machine head, a driving part for driving the stacking machine head to move back and forth and a lifting platform, wherein the honeycomb core conveying part comprises a first conveying belt and a second conveying belt which are arranged in a plurality of transverse alternate arrays, and the rear end of a first conveying frame is arranged on a frame; the stacking machine head comprises a front conveying belt, a rear conveying belt and a machine base, a honeycomb core channel is arranged between the front conveying belt and the rear conveying belt, the rear end of the second conveying frame is connected with the first conveying frame in a sliding mode, and the front end of the second conveying belt is connected with the honeycomb core channel. When the stacking machine head moves, the second conveying belt stretches relative to the first conveying belt, so that the honeycomb cores are continuously conveyed, continuous honeycomb cores are conveyed forwards to the stacking machine head through the honeycomb core conveying part, and the stacking machine head moves back and forth above the lifting platform to stack the honeycomb cores on the lifting platform.

Description

Honeycomb core stacking mechanism

Technical Field

The utility model relates to a honeycomb core stacking mechanism.

Background

The honeycomb core is a continuous honeycomb core processed by a plurality of layers of core paper or core plates, the collection of the traditional honeycomb core adopts manual collection, so that the honeycomb cores are stacked together, and the manual collection has the problems of high cost, low efficiency and untidy stacking.

Disclosure of Invention

In view of the technical problem who exists among the background art, the utility model aims at providing a honeycomb core stacking mechanism, realizes the automatic stack of honeycomb core, saves manual operation, improves production efficiency, reduction in production cost.

In order to solve the technical problem, the utility model discloses a following technical scheme: the honeycomb core stacking mechanism is characterized by comprising

The honeycomb core conveying component comprises

A first conveyor belt arranged on a first drive roller mounted transversely on a first carriage,

the second conveying belt is arranged on a second driving roller, the second driving roller is transversely arranged on a second conveying frame, the first conveying belt and the second conveying belt are provided with a plurality of conveying belts which are transversely and alternately arranged, and the rear end of the first conveying frame is arranged on the rack;

the stacking machine head comprises

A front conveying belt arranged on the front driving roller,

a rear conveying belt arranged on the rear driving roller, the front conveying belt and the rear conveying belt are vertically arranged, a honeycomb core channel is arranged between the front conveying belt and the rear conveying belt,

the front driving roller, the rear driving roller and the front end of the second conveying frame are arranged on the base, the rear end of the second conveying frame is connected with the first conveying frame in a sliding mode, and the front end of the second conveying belt is connected with the honeycomb core channel;

the driving part drives the stacking machine head to move back and forth and comprises a power part;

and a lifting platform arranged below the honeycomb core passage.

Continuous honeycomb core is carried forward to the pile aircraft nose through honeycomb core conveyor means, and the pile aircraft nose moves back and forth above the elevating platform, makes the honeycomb core pile up on the elevating platform, the pile aircraft nose is when moving, and the second conveyer belt is flexible relative to first conveyer belt, makes the honeycomb core continuously carry like this, avoids the transport interrupt of honeycomb core to send the honeycomb core to the elevating platform and pile up neatly.

Preferably, the first conveying belt and the second conveying belt are arranged in an upward inclined mode, the rear end of the first conveying frame is hinged to the frame, and the front end of the second conveying frame is hinged to the base. The rear end of the first conveying belt is connected with the horizontal conveying belt. The core plate is transversely cut into core strips, compacted and bonded into continuous honeycomb cores, the honeycomb cores enter a horizontally arranged conveying belt, the honeycomb cores are positioned at a low position at the moment, the honeycomb cores are conveyed to a stacking machine head from a high position through a first conveying belt and a second conveying belt and are finally stacked on a lifting platform, the lifting platform gradually descends along with the gradual increase of the honeycomb cores on the lifting platform, the lifting platform is inevitably lower than the stacking machine head, the height of the stacking machine head is higher, and the height of the honeycomb cores which can be stacked on the lifting platform is higher.

Preferably, the second conveying frame is provided with a guide rail, and the first conveying frame is provided with a pulley which is arranged on the guide rail in a sliding manner. When the stacking machine head moves longitudinally, the second conveying belt frame is driven to move, so that the pulley on the first conveying frame moves along the guide rail on the second conveying frame, the second conveying frame is guaranteed to move stably, and the first conveying belt and the second conveying belt are on the same plane.

Preferably, the front end and the rear end of the lifting platform are provided with baffles. The honeycomb core is prevented from being separated from the lifting platform, and the honeycomb core is ensured to be stacked neatly.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic diagram of the stacker head moving rightward.

Fig. 3 is a schematic diagram of the stacker head of the present invention moving leftward.

Fig. 4 is a schematic view of the honeycomb core conveying member of the present invention.

Detailed Description

The following describes details and operational principles of embodiments and examples of the present invention with reference to the drawings. The honeycomb core stacking mechanism comprises a honeycomb core conveying part, a stacking machine head, a driving part for driving the stacking machine head to move back and forth and a lifting platform 18; the honeycomb core conveying component comprises a first conveying belt 8 and a second conveying belt 3, the first conveying belt is arranged on a first conveying roller 6, the first conveying roller is transversely arranged on a first conveying frame 7, the second conveying belt 3 is arranged on a second conveying roller 1, the second conveying roller 1 is transversely arranged on a second conveying frame 2, the first conveying belt 8 and the second conveying belt 3 are provided with a plurality of belts and are transversely and alternately arranged, and the rear end of the first conveying frame 7 is arranged on a rack 16; the stacking machine head comprises a front conveying belt 10, a rear conveying belt 11 and a machine base 14, the front conveying belt is arranged on a front driving roller 22, the rear conveying belt is arranged on a rear driving roller 23, the front conveying belt and the rear conveying belt are vertically arranged, a honeycomb core channel 17 is arranged between the front conveying belt and the rear conveying belt, the front driving roller 22, the rear driving roller 23 and the front end of a second conveying frame 2 are arranged on the machine base 14, the rear end of the second conveying frame 2 is connected with a first conveying frame 7 in a sliding mode, the front end of the second conveying belt 3 is connected with the honeycomb core channel 17, and a honeycomb core can enter the honeycomb core channel from the second conveying belt; in the embodiment, as shown in fig. 3, the power part comprises a rack 13, a gear and a motor 15, the rack 13 is longitudinally mounted on a frame 16, the gear is connected with an output shaft of the motor 15, the gear is mounted on a base 14 through a bearing, the motor 15 drives the gear to rotate, and the gear runs on the rack 13 to drive the stacking machine head to longitudinally move on the frame 16; the lifter 18 is disposed below the honeycomb core passage, which moves back and forth above the lifter, so that the honeycomb core is stacked on the lifter. The honeycomb core conveying component conveys continuous honeycomb cores 20 forwards to the stacking machine head, the honeycomb cores 20 enter the honeycomb core channel 17, the front conveying belt and the rear conveying belt clamp the honeycomb cores to convey downwards, the honeycomb cores are placed on the lifting table 18, the power part drives the stacking machine head to move forwards above the lifting table, the honeycomb cores are enabled to be tiled forwards on the lifting table, the power part drives the stacking machine head to move backwards, the honeycomb cores are tiled backwards, and therefore the honeycomb cores are enabled to be tiled on the lifting table. When the stacking machine head moves, the second conveying frame 2 is driven to move, the second conveying frame 2 stretches relative to the first conveying frame 7, when the stacking machine head moves forwards, the second conveying belt 3 stretches out, the length of the honeycomb core conveying part is lengthened, otherwise, when the stacking machine head moves backwards, the second conveying belt 3 retracts relative to the first conveying belt 8, and therefore the conveying of the honeycomb core cannot be influenced even if the stacking machine head moves.

The core board is cut into core strips by a transverse cutting mechanism 21 and compacted and bonded into continuous honeycomb cores, and the core strips are compacted from top to bottom as shown in figure 1, so that the continuous honeycomb cores are positioned at a low position to enable the honeycomb cores on the lifting platform to be stacked higher. The first conveying belt 8 and the second conveying belt 3 are arranged in an upward inclined mode, the rear end of the first conveying frame 7 is hinged to the rack 16, the front end of the second conveying frame 2 is hinged to the base 14, when the stacking machine head drives the second conveying frame 2 to move, the inclination angles of the first conveying frame and the second conveying frame are correspondingly changed through the hinged arrangement, the first conveying belt 8 and the second conveying belt 3 are guaranteed to be on the same plane, and the rear end of the first conveying belt is connected with the horizontal conveying belt 9. The continuous honeycomb cores 20 enter the horizontally arranged conveying belt 9, are conveyed to the high position to the honeycomb core channel 17 of the stacking machine head through the first conveying belt 8 and the second conveying belt 3, are finally stacked on the lifting table 18, the lifting table gradually descends along with the gradual increase of the honeycomb cores on the lifting table until the lifting table descends to the lowest position, the stacked honeycomb cores are collected, and after the honeycomb cores are collected, the lifting table ascends to the highest point to collect the honeycomb cores again.

In order to ensure that the second conveying frame 2 moves stably, a guide rail 4 is arranged on the second conveying frame, and a pulley 5 arranged on the guide rail in a sliding mode is arranged on the first conveying frame. When the stacking machine head moves longitudinally, the second conveying frame 2 is driven to move, so that the pulley 5 on the first conveying frame moves along the guide rail 4 on the second conveying frame, and the second conveying frame 2 is guaranteed to move stably. In order to prevent the honeycomb cores on the lifting platform from separating from the lifting platform, the front end and the rear end of the lifting platform are provided with baffle plates 19, so that the honeycomb cores are orderly stacked between the two baffle plates.

Claims (5)

1. A honeycomb core stacking mechanism is characterized by comprising

The honeycomb core conveying component comprises

A first conveyor belt arranged on a first drive roller mounted transversely on a first carriage,

the second conveying belt is arranged on a second driving roller, the second driving roller is transversely arranged on a second conveying frame, the first conveying belt and the second conveying belt are provided with a plurality of conveying belts which are transversely and alternately arranged, and the rear end of the first conveying frame is arranged on the rack;

the stacking machine head comprises

A front conveying belt arranged on the front driving roller,

a rear conveying belt arranged on the rear driving roller, the front conveying belt and the rear conveying belt are vertically arranged, a honeycomb core channel is arranged between the front conveying belt and the rear conveying belt,

the front driving roller, the rear driving roller and the front end of the second conveying frame are arranged on the base, the rear end of the second conveying frame is connected with the first conveying frame in a sliding mode, and the front end of the second conveying belt is connected with the honeycomb core channel;

the driving part drives the stacking machine head to move back and forth and comprises a power part;

and a lifting platform arranged below the honeycomb core passage.

2. The honeycomb core stacking mechanism according to claim 1, wherein the first conveyor belt and the second conveyor belt are disposed in an upward inclined manner, a rear end of the first conveyor frame is hinged to the frame, and a front end of the second conveyor frame is hinged to the frame.

3. The honeycomb core stacking mechanism of claim 2, wherein the rear end of the first conveyor belt engages the horizontal conveyor belt.

4. The honeycomb core stacking mechanism of claim 1, wherein the second carriage is provided with a guide rail, and the first carriage is provided with a pulley slidably disposed on the guide rail.

5. The honeycomb core stacking mechanism according to claim 1, wherein the front and rear ends of the lifting platform are provided with baffles.

Images