CN220906509U - Automatic stacking device of stamping and cutting integrated machine - Google Patents

Abstract

The utility model provides an automatic stacking device of a stamping and cutting integrated machine, which is characterized by comprising a transmission structure, an adjusting structure and a stacking structure, wherein the transmission structure is hinged with the adjusting structure through a hinge bracket in the adjusting structure, and one side of the transmission structure is provided with the stacking structure; through setting up spring damper, baffle, crashproof pad, horizontal articulated rod, distance sensor, mounting bracket, fixing bolt, improved electric telescopic handle, offered the spout in the workstation is close to motor one end both sides, reached and increased second belt movable range, avoided the material to collide with in folding the workbin impaired, can adapt to multiple specification material, reduce the regulation number of times, simplify the effect of flow.

Description

Automatic stacking device of stamping and cutting integrated machine

Technical Field

The utility model relates to the technical field of blanking stacking equipment, in particular to an automatic stacking device of a stamping and cutting integrated machine.

Background

The material pieces are placed according to the shape of the material pieces, and disc type material pieces and sheet type material pieces are usually placed in a stacked mode. In order to solve the problems of high labor intensity, irregular stacking and low working efficiency caused by adopting a manual stacking mode in the existing material stacking process, the prior art provides an automatic blanking stacking device.

As described in patent CN210029253U, the power box is disposed at the bottom of the workbench, the analysis host is disposed at one side of the power box, one end of the top surface of the workbench is provided with a first conveying roller and a motor, the first conveying roller is in transmission fit with a rotating shaft of the motor, the other end of the workbench is provided with a second conveying roller, the second conveying roller is in transmission fit with the first conveying roller through a first belt, the middle of the same side of the workbench is provided with a supporting rod, one end of the supporting rod is provided with a third conveying roller, the third conveying roller is in transmission fit with the second conveying roller through a second belt, the middle of the same side of the workbench is also provided with a sliding chute for the supporting rod, the supporting frame is disposed on the right side of the workbench, a screw rod and a servo motor are disposed on the supporting frame, one end of the screw rod is in rotation connection with the bottom of the supporting frame, the other end of the screw rod is in transmission connection with the rotating shaft of the servo motor, the screw rod is provided with a sliding block, and the sliding block is provided with a clamping groove; a clamping block is arranged on one side of the stacking box, a first pressure sensor is arranged on the right side surface of the inside of the stacking box, a second pressure sensor is arranged on the top surface of the inside of the stacking box, the clamping groove is a T-shaped clamping groove, the clamping block is a T-shaped clamping block, an inclined surface facing the inner side of the box body is arranged on the bottom surface of the stacking box, and an inclined surface facing the outer side of the box body is arranged on the top surface of the stacking box;

However, in the utility model, the movable range of the second belt is smaller, and the material which firstly enters the stacking box repeatedly collides with the inner surface of the stacking box, so that the material is damaged; the distance that first pressure sensor, second pressure sensor moved after the pressurized is related to the material specification, when the material specification was changed, the distance of moving of structures such as the slider that need measure once more and adjust the sensor control, causes the device application range to reduce, and the complex operation after changing the material specification.

Therefore, the automatic stacking device of the stamping and cutting integrated machine, which can increase the movable range of the second belt, avoid the collision and damage of materials in the stacking box, adapt to various specifications of materials, reduce the adjustment times and simplify the process, is urgently needed.

Disclosure of utility model

According to the technical problem, the automatic stacking device of the stamping and cutting integrated machine provided by the utility model has the advantages that the movable range of the second belt is increased, the materials are prevented from being knocked and damaged in the stacking box, the automatic stacking device can adapt to materials with various specifications, the adjusting times are reduced, and the flow is simplified.

The utility model is characterized by comprising a transmission structure, an adjusting structure and a stacking structure, wherein the transmission structure is hinged with the adjusting structure through a hinge bracket in the adjusting structure, and one side of the transmission structure is provided with the stacking structure.

The transmission structure comprises workstation, first belt, mounting bracket, fixing bolt, distance sensor, motor, first belt is installed to the workstation upper end, first belt one end is connected with the motor output, the motor output runs through the workstation and is fixed in the workstation outside, the spout has been seted up to the workstation near motor one end both sides, the workstation passes through spout sliding connection with the mounting bracket, mounting bracket both ends and fixing bolt threaded connection, distance sensor is installed to mounting bracket upper end one side.

The adjusting structure comprises an electric telescopic rod, a transverse hinging rod, a connecting rod, a hinging frame and a second belt, wherein the telescopic end of the electric telescopic rod is connected with the rear end of the transverse hinging rod in a plane, the transverse hinging rod is hinged with the connecting rod, the connecting rod is hinged with the hinging frame, and the second belt is movably connected in the middle of the hinging frame.

The material stacking structure comprises a support frame, slide bars, spring dampers, material stacking boxes, baffles, anti-collision pads and sliding blocks, wherein the support frame is C-shaped, the slide bars are fixedly connected to the inner sides of the support frame and are in sliding connection with the sliding blocks, the material stacking boxes are mounted at the front ends of the sliding blocks, the spring dampers are mounted at the lower ends of the material stacking boxes, the number of the spring dampers is multiple, the baffles are welded on the two sides of the material stacking boxes, and the anti-collision pads are mounted on the inner sides of the material stacking boxes.

The beneficial effects of the utility model are as follows:

According to the utility model, the spring damper, the baffle, the anti-collision pad, the transverse hinging rod, the distance sensor, the mounting rack and the fixing bolt are added on the basis of the original structure, the electric telescopic rod is improved, and the sliding grooves are formed in the two sides of one end of the workbench, which is close to the motor, so that the movable range of the second belt is increased, the damage of the material in the stacking box due to collision is avoided, the effects of adapting to materials with various specifications, reducing the adjustment times and simplifying the flow are achieved.

The spring damper and the distance sensor are matched, the adjustment times are reduced, operators do not need to adjust each sensor and the driving device in advance according to the transmission materials, the sensors and the driving device can be adjusted according to the specification of the next material, the measurement is carried out by taking whether the material stacking exceeds the highest height of the material stacking as a standard, the spring damper provides the supporting force of the material stacking box, the elastic force for recovering the original position, and the shaking in the single spring compression process is reduced, so that the movement of the single spring compression process is stable.

The baffle prevents the material from falling out of the stack when sliding down the inclined portion of the stack.

The anti-collision pad provides buffering, and materials entering the stacking box first in the stacking process can receive multiple impacts, so that the anti-collision pad is needed to avoid damage to the materials due to collision with the inside of the stacking box after the materials enter the stacking box.

The mounting bracket, fixing bolt, spout provide mounted position for distance sensor, consider the device needs adaptation more material specifications, and the mounting bracket can remove in the spout in order to change its height through fixing bolt.

The transverse hinging rod and the electric telescopic rod enlarge the adjustable range of the second belt.

Drawings

FIG. 1 is a schematic diagram of the front side of the overall structure of an automatic stacking device of a punching and cutting integrated machine;

FIG. 2 is an enlarged schematic view of an adjusting structure of an automatic stacking device of the punching and cutting integrated machine;

Fig. 3 is a schematic rear side view of an overall structure of an automatic stacking device of the punching and cutting integrated machine.

As shown, 11, the table, 12, the first belt, 13, the mounting bracket, 14, the fixing bolt, 15, the chute, 16, the distance sensor, 17, the motor, 21, the electric telescopic rod, 22, the transverse hinge rod, 23, the connecting rod, 24, the hinge bracket, 25, the second belt, 31, the supporting frame, 32, the sliding rod, 33, the spring damper, 34, the stacking box, 35, the baffle, 36, the crash pad and 37, the sliding block.

Detailed Description

Example 1

The utility model provides an automatic stacking device of a stamping and cutting integrated machine, which comprises a transmission structure, an adjusting structure and a stacking structure.

The first belt 12 is installed to workstation 11 upper end, and first belt 12 one end is connected with motor 17 output, and motor 17 output runs through workstation 11 and is fixed in the workstation 11 outside, and spout 15 has been seted up to workstation 11 near motor 17 one end both sides, and workstation 11 passes through spout 15 sliding connection with mounting bracket 13, and mounting bracket 13 both ends and fixing bolt 14 threaded connection, distance sensor 16 is installed to mounting bracket 13 upper end one side.

The telescopic end of the electric telescopic rod 21 is connected with the rear end plane of the transverse hinge rod 22, the transverse hinge rod 22 is hinged with the connecting rod 23, the connecting rod 23 is hinged with the hinge bracket 24, and a second belt 25 is movably connected in the middle of the hinge bracket 24.

The support frame 31 is C font, and support frame 31 inboard fixedly connected with slide bar 32, slide bar 32 and slider 37 sliding connection, and the stack case 34 is installed to slider 37 front end, and spring damper 33 is installed to stack case 34 lower extreme, and spring damper 33 quantity is a plurality of, and stack case 34 both sides welding has baffle 35 to overlap the case 34 inboard and installs crashproof pad 36.

Example 2

When the utility model is used, the electric telescopic rod 21 is extended according to the requirement, the transverse hinging rod 22 is pushed to move, the connecting rod 23 is driven to move, the hinging frame 24 further drives the second belt 25 to rotate around the hinging position of the hinging frame 24 and the first belt 12, the second belt is matched with the discharging position of the punching and cutting integrated machine, and materials can conveniently fall onto the first belt 12 through transition of the second belt 25.

According to the material specification, the height of the mounting frame 13 is adjusted in the chute 15, and after adjustment is completed, the fixing bolt 14 is screwed to fix the mounting frame 13. The starting device, the motor 17 rotates to drive the first belt 21 to run, the materials after tibia punching and cutting fall onto the first belt 12 through the second belt 25, and are conveyed through the running of the first belt 12, finally fall into the stacking box 34 from one end of the first belt 12, and slide down along the inclined part of the lower end of the stacking box 34, wherein the materials which firstly enter the stacking box 34 are contacted with the anti-collision pad 36 to be buffered, and the baffle 35 prevents the materials from sliding from two sides.

As the material falls in, the mass of material in the stacker 34 increases, compressing the spring damper 33 to shorten it, and the stacker 34 moves down the slide rod 32 by the slider 37. When the material in the stacking box 34 is excessively stacked, and the height exceeds the height of the material transported by the first belt 12, the material cannot fall into the stacking box 34 and cannot be continuously stacked, at this time, the detection signal of the distance sensor 16 changes due to blocking generated by higher stacked material, the detected distance is shortened, and the transmission is suspended by the outgoing signal. The operator takes out the materials which are stacked in the stacking box 34, and due to the weight reduction, the elastic force of the spring damper 33 of the stacking box 34 is restored to the original position, and the damper ensures that the stacking box 34 returns slowly and stably, so that the operator is prevented from being injured. After the material is taken, the device is started continuously to perform the next material stacking operation.

The foregoing has shown and described the basic principles and main features of the present utility model and the advantages of the present utility model. Various components mentioned in the present utility model are common in the art, and it should be understood by those skilled in the art that the present utility model is not limited by the above embodiments, and the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications can be made in the present utility model without departing from the spirit and scope of the utility model, which is defined in the claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (4)

1. Automatic material device that stacks of all-in-one is decided in punching press, its characterized in that: the device comprises a transmission structure, an adjusting structure and a stacking structure, wherein the transmission structure is connected with the adjusting structure and the stacking structure;

The transmission structure comprises a workbench, a first belt, a mounting frame, a fixing bolt, a distance sensor and a motor, wherein the workbench is connected with the first belt, the first belt is connected with the output end of the motor, the workbench is connected with the mounting frame, and the mounting frame is connected with the fixing bolt and the distance sensor.

2. The automatic stacking device of the stamping and cutting integrated machine according to claim 1, wherein: the motor output end penetrates through the workbench and is fixed on the outer side of the workbench, and sliding grooves are formed in two sides, close to one end of the motor, of the workbench.

3. The automatic stacking device of the stamping and cutting integrated machine according to claim 1, wherein: the adjusting structure comprises an electric telescopic rod, a transverse hinging rod, a connecting rod, a hinging frame and a second belt, wherein the telescopic end of the electric telescopic rod is connected with the rear end of the transverse hinging rod in a plane, the transverse hinging rod is hinged with the connecting rod, the connecting rod is hinged with the hinging frame, and the second belt is movably connected in the middle of the hinging frame.

4. The automatic stacking device of the stamping and cutting integrated machine according to claim 1, wherein: the material stacking structure comprises a supporting frame, a sliding rod, a spring damper, a material stacking box, baffle plates, anti-collision pads and a sliding block, wherein the sliding rod is fixedly connected to the inner side of the supporting frame and is in sliding connection with the sliding block, the material stacking box is installed at the front end of the sliding block, the spring damper is installed at the lower end of the material stacking box, the baffle plates are welded on two sides of the material stacking box, and the anti-collision pads are installed on the inner side of the material stacking box.