CN220683915U - Ton bucket pipe shake material loading machine - Google Patents

Abstract

The utility model relates to an automatic device designed for further improving the production of a ton barrel frame round tube, which is used for carrying out preliminary feeding on a stamping device. The utility model provides a ton barrel circular tube shaking feeding machine, which comprises a rolling device arranged on a machine frame and a pulley device arranged on the machine frame; the winding shaft of the winding device is arranged at the lower side part of the frame, one end of the winding belt is fixedly connected with the top end of the frame, and the winding belt is matched with the pulley device, so that a placement area is formed between the fixed end and the pulley device, and a ton barrel circular tube is fed in the placement area; the winding belt adopts a belt. The other end of the winding belt is wound on the winding shaft.

Description

Ton bucket pipe shake material loading machine

Technical Field

The utility model relates to an automatic ton barrel circular tube processing device, in particular to a ton barrel circular tube shaking feeder.

Background

Ton barrel packaging is a necessary tool for modern storage and transportation of liquid products. High strength, corrosion resistance and good sanitation. The adoption of the container barrel for packaging can greatly reduce the production, storage, transportation and operation. The ton bucket comprises a bottom plate, a frame structure and an internal plastic bucket. The frame structure is fixed on the bottom plate in a welding or screwing mode, and the frame structure is often made of round tubes. The end of the round tube needs to be cut off, pressed or stamped, and an automatic arrangement and feeding device needs to be designed for facilitating automatic production.

Disclosure of Invention

The utility model relates to an automatic device designed for further improving the production of a ton barrel frame round tube, which is used for carrying out preliminary feeding on a stamping device. The utility model provides a ton barrel circular tube shaking feeding machine

A ton barrel circular tube shaking feeding machine comprises a winding device arranged on a machine frame and a pulley device arranged on the machine frame;

the winding shaft of the winding device is arranged at the lower side part of the frame, one end of the winding belt is fixedly connected with the top end of the frame, and the winding belt is matched with the pulley device, so that a placement area is formed between the fixed end and the pulley device, and a ton barrel circular tube is fed in the placement area; the winding belt adopts a belt. The other end of the winding belt is wound on the winding shaft.

The area between the pulley device and the winding shaft is arranged below the placement area. The pulley device is arranged at a height lower than the fixed end of the winding belt, so that one surface can stabilize blanking.

When the device is used, a round tube or a crescent round tube is required to be placed on the placement area, and the round tube on the placement area rolls and slides along one side of the placement area to enter the next device by tightening and loosening the winding belt.

Preferably, an auxiliary frame is arranged on the machine frame, and the top edge of the auxiliary frame is a bevel edge which forms an included angle of 40 degrees with the horizontal plane; the vertical setting height of the auxiliary frame is lower than the pulley device, and the higher part of the top edge and the fixed end of the winding belt are on the same vertical plane; the auxiliary frame is used for limiting the maximum material receiving amount of the placement area.

Preferably, the pulley device comprises two fixed pulleys arranged on the same vertical plane, and the plane of the pulleys tangent to the vertical direction is the same as the front side surface of the frame.

Preferably, the number of the winding devices is more than or equal to 3, and uniform driving is used; the unified driving mode is as follows: the machine frame is provided with bearings, winding shafts of all winding devices are communicated through synchronous rods, gears are arranged on the synchronous rods, and the synchronous rods are driven by stepping servo motors.

Preferably, the winding devices are arranged at equal intervals, and the interval between the winding devices at two ends is smaller than the length of the material pipe of the ton barrel circular pipe. Thus, the problem that the end part of the round tube is clamped on the winding belt can be avoided.

The utility model has the beneficial effects that: through the use of the winding device, the traditional falling type blanking can clamp the main round pipe and can normally feed, particularly the round pipe with a crescent section, and the round pipes can be alternately positioned mutually to generate shaking through winding and loosening alternation, so that the feeding can be normally completed.

Drawings

FIG. 1 back assembly view;

in the figure: 1. the device comprises a winding belt, 2 pulley devices, 3, an auxiliary frame, 4, a winding shaft, 5, a bearing, 6, a synchronous rod, A and a circular tube.

Detailed Description

The technical scheme of the utility model is further specifically described below through specific embodiments and with reference to the accompanying drawings.

Examples

As shown in fig. 1, the ton barrel circular tube shaking feeding machine comprises a rolling device arranged on a machine frame and a pulley device 2 arranged on the machine frame;

the winding shaft 4 of the winding device is arranged at the lower side part of the frame, one end of the winding belt is fixedly connected with the top end of the frame, and the winding belt 1 is matched with the pulley device, so that a placement area is formed between the fixed end and the pulley device, and a ton barrel circular tube is fed in the placement area; the winding belt adopts a belt. The other end of the winding belt is wound on the winding shaft.

The area between the pulley device and the winding shaft is arranged below the placement area. The pulley device is arranged at a height lower than the fixed end of the winding belt, so that one surface can stabilize blanking.

When the device is used, a round tube or a crescent round tube is required to be placed on the placement area, and the round tube A on the placement area rolls and slides along one side of the placement area to enter the next device by tightening and loosening the winding belt.

An auxiliary frame is arranged on the machine frame, and the top edge of the auxiliary frame 3 is a bevel edge and forms an included angle of 40 degrees with the horizontal plane; the vertical setting height of the auxiliary frame is lower than the pulley device, and the higher part of the top edge and the fixed end of the winding belt are on the same vertical plane; the auxiliary frame is used for limiting the maximum material receiving amount of the placement area.

The pulley device comprises two fixed pulleys arranged on the same vertical plane, and the plane of the pulleys tangent to the vertical direction is the same as the front side surface of the frame.

The number of the winding devices is equal to 3, and uniform driving is used; the unified driving mode is as follows: the machine frame is provided with a bearing 5, winding shafts of all winding devices are communicated through a synchronizing rod 6, gears are arranged on the synchronizing rod, and the synchronizing rod is driven by a stepping servo motor.

The winding devices are arranged at equal intervals, and the interval between the winding devices at the two ends is smaller than the length of the material pipe of the ton barrel circular pipe. Thus, the problem that the end part of the round tube is clamped on the winding belt can be avoided.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (5)

1. The ton barrel circular tube shaking feeding machine is characterized by comprising a winding device arranged on a machine frame and a pulley device arranged on the machine frame;

the winding shaft of the winding device is arranged at the lower side part of the frame, one end of the winding belt is fixedly connected with the top end of the frame, and the winding belt is matched with the pulley device, so that a placement area is formed between the fixed end and the pulley device, and a ton barrel circular tube is fed in the placement area;

the area between the pulley device and the winding shaft is arranged below the placement area.

2. The ton barrel circular tube shaking feeder according to claim 1, wherein an auxiliary frame is arranged on the frame, and the top edge of the auxiliary frame is a bevel edge forming an included angle of 40 degrees with a horizontal plane; the vertical setting height of the auxiliary frame is lower than the pulley device, and the higher part of the top edge and the fixed end of the winding belt are on the same vertical plane; the auxiliary frame is used for limiting the maximum material receiving amount of the placement area.

3. The ton barrel round tube shaking feeder according to claim 1, wherein the pulley device comprises two fixed pulleys arranged on the same vertical plane, and the plane of the pulleys tangent to the vertical direction is the same as the front side surface of the frame.

4. The ton barrel circular tube shaking feeder according to claim 1, wherein the number of the winding devices is more than or equal to 3, and uniform driving is used; the unified driving mode is as follows: the machine frame is provided with bearings, winding shafts of all winding devices are communicated through synchronous rods, gears are arranged on the synchronous rods, and the synchronous rods are driven by stepping servo motors.

5. The vibratory feeder of claim 4, wherein the winding devices are arranged at equal intervals, and the interval between the two ends is smaller than the length of the pipe of the circular tube.