CN219448503U - Turnover baffle assembly, keel turnover baffle mechanism and keel integrated machine - Google Patents

Abstract

The utility model relates to the technical field of automatic packaging equipment, in particular to a turnover baffle assembly, a keel turnover baffle mechanism and a keel integrated machine, which comprises a feeding conveying assembly, a steering conveying assembly and a turnover baffle assembly, wherein the steering conveying assembly is arranged perpendicular to the feeding conveying assembly; the feeding conveying assembly comprises a keel conveying belt; the turnover baffle assembly comprises a turnover baffle, a rotating shaft and an air cylinder, wherein the rotating shaft and the air cylinder are arranged below the turnover baffle; the cylinder controls the turnover baffle to rotate around the rotating shaft. According to the turnover baffle plate, the turnover baffle plate can be turned under the control of the air cylinder, and when the turnover baffle plate is vertical to the keel conveying belt, the turnover baffle plate can prevent the keels from falling off; when the turnover baffle plate is level with the keel conveying belt, the turnover baffle plate can be used as a sliding table to reject unqualified keels, meanwhile, the turning conveying assembly is turned upside down, and conveying teeth on the turning conveying assembly can push the unqualified keels onto the turnover baffle plate and further slide to the waste table.

Description

Turnover baffle assembly, keel turnover baffle mechanism and keel integrated machine

Technical Field

The utility model relates to the technical field of automatic packaging equipment, in particular to a turnover baffle assembly, a keel turnover baffle mechanism and a keel integrated machine.

Background

The keel is a building material for supporting modeling and fixing structure. Is widely applied to hotels and terminal buildings. Passenger stations, theatres, shops, factories, office buildings, old building reconstruction, indoor decoration settings, ceilings and other places. The keels are a finished skeleton and substrate, and are very commonly used. The variety of fossil fragments is many, according to the difference of structure shape, can divide into ordinary fossil fragments and limit bone, and ordinary fossil fragments are the fossil fragments that U type structure both sides limit highly is the same, and limit bone is the fossil fragments that U type structure both sides limit highly is different.

After the keel is processed in the forming machine, the keel is buckled and packed by the keel integrated machine, so that the keel is convenient for subsequent transportation. When the molding machine needs to change materials when processing the keels, the molding machine can automatically weld the tail parts of the first section of materials and the head parts of the second section of materials together, and the keels formed by the welded materials do not meet the production standard and need to be removed.

In order to remove unqualified keels, a worker is usually arranged beside the horizontal conveying mechanism, the unqualified keels are removed in a manual mode and placed on a waste table, and the removing mode is time-consuming and labor-consuming, so that the production cost of enterprises is increased.

Disclosure of Invention

In order to solve the defects in the prior art, the utility model provides the turnover baffle assembly, the keel turnover baffle mechanism and the keel integrated machine, which can remove unqualified keels in a full-automatic manner and improve the production efficiency.

In order to achieve the above purpose, the technical scheme of the utility model is as follows: a rollover baffle assembly comprising a rollover baffle; the turnover baffle is characterized in that a plurality of rotary support rods are connected below the turnover baffle, the rotary support rods are connected with a rotating shaft, a driving piece is further arranged below the turnover baffle, and the driving piece drives the turnover baffle to rotate around the rotating shaft.

Further, the driving piece is an air cylinder, and the air cylinder is rotationally connected with the overturning baffle.

The keel overturning baffle mechanism comprises a feeding conveying assembly and a steering conveying assembly which is perpendicular to the feeding conveying assembly; one side of the feeding conveying assembly is provided with the overturning baffle assembly; the feeding conveying assembly comprises a keel conveying belt.

Further, one end of the steering conveying component far away from the feeding conveying component is higher than one end of the steering conveying component close to the feeding conveying component.

Further, the steering conveying assembly comprises a symmetrically arranged chain, and a plurality of conveying teeth are uniformly arranged on the chain.

Further, two grooves are formed in the overturning baffle, the positions of the grooves are matched with those of the chain, and the depth of each groove is larger than the height of each conveying tooth.

Further, the angle of inclination of the keel conveyor belt is the same as the angle of inclination of the diverting conveyor assembly.

Further, a waste table is arranged on one side of the turnover baffle assembly.

Further, the height of the waste table is lower than that of the overturning baffle assembly, and a waste sliding table connected with the waste table and the overturning baffle assembly is arranged between the waste table and the overturning baffle assembly.

Further, the end of the conveying direction of the keel conveying belt is provided with a keel baffle, and the other end of the keel baffle is provided with a hand wheel for controlling the position of the keel baffle.

The keel integrated machine comprises a keel overturning baffle mechanism, wherein the keel overturning baffle mechanism is arranged in the keel integrated machine.

The beneficial effects achieved by the utility model are as follows:

the turnover baffle plate can turn under the control of the air cylinder, and when the turnover baffle plate is vertical to the keel conveying belt, the turnover baffle plate can prevent the keel from falling out of the keel conveying belt; when unqualified fossil fragments are carried the fossil fragments conveyer belt, upset baffle flushes with the fossil fragments conveyer belt, and the upset baffle is as the slip table convenient unqualified fossil fragments slip to the waste material bench, turns to conveying assembly simultaneously and reverses, and the conveying tooth on the turning conveying assembly can push the unqualified fossil fragments of card on the fossil fragments conveyer belt to the upset baffle on, further slides to the waste material bench. The whole rejection process of unqualified keels is automatically processed, no monitoring by staff is needed for a long time, the production cost is saved, and the production efficiency is improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a keel integrated machine;

FIG. 2 is an enlarged schematic view of a portion of FIG. 1 at A;

FIG. 3 is a front view of the inversion baffle assembly;

fig. 4 is a perspective view of the inversion baffle assembly.

The figure indicates: 1. a feed conveying assembly; 2. a steering conveying assembly; 3. a waste station; 101. a keel conveying belt; 102. a keel baffle; 103. a hand wheel; 201. a chain; 401. turning over the baffle; 402. a rotating shaft; 403. a cylinder; 404. rotating the support rod; 405. and a connecting frame.

Detailed Description

In order to better understand the purpose, structure and function of the present utility model, a turning baffle assembly, a keel turning baffle mechanism and a keel integrated machine according to the present utility model will be described in further detail below with reference to the accompanying drawings.

As shown in fig. 3 and 4, a turnover baffle assembly comprises a strip-shaped turnover baffle 401, a connecting frame 405 and two rotating support rods 404, wherein the connecting frame 405 is connected below the turnover baffle 401, the connecting frame 405 is arranged between the two rotating support rods 404, a rotating shaft 402 is arranged at the bottom of the rotating support rods 404, an air cylinder 403 is hinged at the bottom of the connecting frame 405, and the turnover baffle 401 can rotate by 90 degrees around the rotating shaft 402 under the control of the air cylinder 403.

As shown in fig. 1 to 4, a keel turnover baffle mechanism comprises a feeding conveying assembly 1, a steering conveying assembly 2 which is perpendicular to the feeding conveying assembly 1, a turnover baffle assembly which is arranged on one side of the feeding conveying assembly 1, and a waste table 3 which is arranged on one side of the turnover baffle assembly.

The feeding conveying assembly 1 comprises two sections of flush keel conveying belts 101, a keel baffle 102 is arranged at the end of each keel conveying belt 101, a hand wheel 103 for controlling the position of the keel baffle 102 is arranged at one end of each keel baffle 102, and the position of each keel baffle 102 is adjusted by rotating the hand wheel 103, so that the keel all-in-one machine is suitable for conveying keels with different lengths.

The direction of motion of the steering conveying component 2 is perpendicular to the feeding conveying component 1, the steering conveying component 2 and the horizontal plane form a certain angle of inclination, one end of the steering conveying component 2, which is far away from the keel conveying belt 101, is higher than one end of the steering conveying component 2, which is close to the keel conveying belt 101, the angle of inclination of the keel conveying belt 101 and the steering conveying component 2 is the same, and the angle of inclination of the keel conveying belt 101 is preferably 10 degrees. The steering conveying assembly 2 is internally provided with a chain 201, a plurality of conveying teeth are uniformly arranged on the chain 201, and the conveying teeth convey keels on the keel conveying belt 101 to a buckling mechanism for buckling.

The keel conveyer belt 101 one side is provided with the upset baffle subassembly, and the upset baffle subassembly can prevent that the fossil fragments on the keel conveyer belt 101 from breaking away from keel conveyer belt 101. The turning baffle 401 in the turning baffle assembly is provided with a groove, the position of the groove is matched with the position of the chain 201 on the steering conveying assembly 2, and the depth of the groove is larger than the height of the conveying teeth, so that the conveying teeth on the chain 201 can pass through the groove of the turning baffle 401 when the chain 201 rotates.

When the cylinder 403 in the turnover baffle assembly runs to the maximum travel, the turnover baffle 401 is vertical to the keel conveying belt 101, at the moment, the keels on the keel conveying belt 101 can be prevented from falling off, and the keels are conveyed to the buckling mechanism under the drive of conveying teeth; when the cylinder 403 returns to its original state, the inversion baffle 401 is flush with the keel conveyor belt 101, at which time the reject keel on the keel conveyor belt 101 slides into the scrap box receptacle 3 via the inversion deck.

The keel integrated machine comprises the keel overturning baffle mechanism, the buckling mechanism, the stacking mechanism, the bundling mechanism and the stacking mechanism. The buckling mechanism is arranged on the side part of the chain 201 in the steering conveying assembly 2, a buckling mechanical arm is arranged in the buckling mechanism, after keels are conveyed to the buckling mechanism through conveying teeth on the chain 201, the conveying chain 201 stops conveying, the buckling mechanical arm buckles the keels blocked by the limiting columns together, after buckling is completed, the conveying chain 201 continues conveying, and further next buckling action is prepared. The rear end of the steering conveying assembly 2 in the conveying direction is provided with a stacking mechanism, and the stacking mechanism can stack the buckled keels into a small stack. After the stacking mechanism is completed, the stacked small stacks are conveyed to the bundling mechanism for bundling through the conveying device, and the machine head in the bundling mechanism winds and bundles the stacked small stacks through the adhesive tape. And conveying the tied keels to a stacking mechanism, and stacking in the stacking mechanism.

During operation, according to the fossil fragments length of make-up machine production, regulating handwheel 103 makes fossil fragments baffle 102 to suitable position, and upset baffle 401 revolutes the rotation of axle 402 under the drive of cylinder 403, and rotatory back to upset baffle 401 and fossil fragments conveyer belt 101, cylinder 403 stop motion, and fossil fragments of make-up machine production are carried fossil fragments baffle 102 department through fossil fragments conveyer belt 101 and stop, and the conveying tooth in turning to conveying assembly 2 drives fossil fragments after stopping and carries to buckling mechanisms, and fossil fragments transportation in-process, upset baffle 401 play the effect of supporting fossil fragments, preventing fossil fragments conveyer belt 101 from dropping. When the molding machine is used for changing materials, the tail part of the first section of materials and the head part of the second section of materials are welded together, the produced keels are unqualified, the turnover baffle assembly 4 receives signals sent by the molding machine, when the unqualified keels are conveyed to the position of the keel baffle 102, the air cylinder 403 controls the turnover baffle 401 to rotate in the opposite direction until the turnover baffle 401 is flush with the keel conveying belt 101, meanwhile, the steering conveying assembly 2 reverses under the control of the servo motor, conveying teeth on the chain 201 enable the unqualified keels on the keel conveying belt 101 to reversely convey out of the keel conveying belt 101, the unqualified keels slide to the waste table 3 along the turnover baffle 401, and after the unqualified keels are removed, the turnover baffle 401 rotates again to block the keels on the keel conveying belt 101.

It will be understood that the utility model has been described in terms of several embodiments, and that various changes and equivalents may be made to these features and embodiments by those skilled in the art without departing from the spirit and scope of the utility model. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the utility model without departing from the essential scope thereof. Therefore, it is intended that the utility model not be limited to the particular embodiment disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.

Claims (10)

1. A roll-over baffle assembly, characterized in that: comprises a turnover baffle plate (401); the turnover baffle plate (401) is connected with a plurality of rotary support rods (404) below, the rotary support rods (404) are connected with a rotating shaft (402), a driving piece is further arranged below the turnover baffle plate (401), and the driving piece drives the turnover baffle plate (401) to rotate around the rotating shaft (402).

2. The inversion baffle assembly of claim 1, wherein: the driving piece is an air cylinder (403), and the air cylinder (403) is rotationally connected with the turnover baffle plate (401).

3. The utility model provides a fossil fragments upset baffle mechanism which characterized in that: comprises a feeding conveying assembly (1) and a steering conveying assembly (2) which is arranged perpendicular to the feeding conveying assembly (1); a turnover baffle plate assembly as claimed in claim 1 or 2 is arranged on one side of the feeding conveying assembly (1); the feeding conveying assembly (1) comprises a keel conveying belt (101).

4. A keel inversion baffle mechanism according to claim 3, wherein: one end of the steering conveying component (2) far away from the feeding conveying component (1) is higher than one end of the steering conveying component (2) close to the feeding conveying component (1).

5. A keel inversion baffle mechanism according to claim 3, wherein: the steering conveying assembly (2) comprises a symmetrically arranged chain (201), and a plurality of conveying teeth are uniformly arranged on the chain (201).

6. A keel turnover baffle mechanism as defined in claim 5, wherein: the turnover baffle plate (401) is provided with two grooves, the positions of the grooves are matched with the positions of the chains (201), and the depth of the grooves is larger than the height of the conveying teeth.

7. The keel turnover baffle mechanism of claim 4 wherein: the inclination angle of the keel conveying belt (101) is the same as that of the steering conveying assembly (2).

8. A keel inversion baffle mechanism according to claim 3, wherein: the waste material table is characterized in that a waste material table (3) is arranged on one side of the turnover baffle assembly, the height of the waste material table (3) is lower than that of the turnover baffle assembly, and a waste material sliding table which is connected with the waste material table (3) and the turnover baffle assembly is arranged between the waste material table (3) and the turnover baffle assembly.

9. A keel inversion baffle mechanism according to claim 3, wherein: the end of the conveying direction of the keel conveying belt (101) is provided with a keel baffle (102), and the other end of the keel baffle (102) is provided with a hand wheel (103) for controlling the position of the keel baffle (102).

10. Fossil fragments all-in-one, its characterized in that: a keel inversion baffle mechanism comprising any of claims 3 to 9, said keel inversion baffle mechanism being disposed within a keel unitary machine.