JP3227308U - Conveyor belt quick change mechanism for non-metal material blank press - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a conveyor belt rapid exchange mechanism for a non-metal material blank press, which is easy to exchange, saves time and labor, has a high exchange speed, and improves work efficiency. SOLUTION: The exchange mechanism includes a frame 1, an upper driven roller 2 provided on the upper left side of the frame, a lower driven roller 3 provided on the lower left side of the frame, a pulling roller 4 provided on the upper right side of the frame, and a frame. A skew resistant roller 5 is provided on the lower right side of the upper roller, and the upper driven roller, the lower driven roller, the skew roller and the pulling roller are connected by a cut resistant conveyance belt 6. The cut-resistant transport belt includes an opening belt main body and a plurality of first metal connecting blocks uniformly provided at one end of the opening belt main body, and between the two adjacent first metal connecting blocks, the opening belt main body is provided. A second metal connecting block connected to the other end is provided, and fixing holes communicating with each other are formed in the first metal connecting block and the second metal connecting block. [Selection diagram] Figure 1

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a multifunction machine, and more particularly to a conveyor belt quick change mechanism for a blank/press of a non-metallic material.

It is necessary to feed the raw material with a blank press during the process of using the multi-function machine. Here, the conveyor belt type blank press can handle 90% or more of the cutting work of non-metallic materials, and is especially flexible and ultra-thin. The optimum automatic cutting effect for the material can be obtained. However, the work of exchanging the ring-shaped cut-resistant conveyor belt is troublesome, and there is a similar problem whether it is a domestic product or an imported product. Currently, the following methods are mainly used to replace the conveyor belts in Japan and overseas. That is, a similar annular belt is ordered from a conveyor belt maker, and a machine maker dispatches a few experts to the site to remove the punch in the upper half of the cutting machine and then insert the annular belt. After that, the punch is reassembled, tested and adjusted, and then handed to the customer. Such a replacement work method requires much labor and time, and the replacement cost is high. The operating efficiency of the equipment is reduced and the production needs of the company cannot be met.

The technical problem to be solved by the present invention is to provide a conveyor belt rapid exchange mechanism for non-metallic material blank presses which is convenient for exchange.

The present invention adopts the following technical means in order to solve the above technical problems. Conveyor belt quick change mechanism for non-metal material blank press, which includes a frame, an upper driven roller provided on the upper left side of the frame, a lower driven roller provided on the lower left side of the frame, and an upper right side of the frame. A pulling roller and a skew roller provided on the right side of the lower end of the frame are included, and the upper driven roller, the lower driven roller, the skew roller and the pulling roller are connected by a cut resistant conveyance belt. The structure of the cut-resistant transport belt includes an opening belt main body and a plurality of first metal connecting blocks uniformly provided at one end of the opening belt main body, and an opening is provided between two adjacent first metal connecting blocks. A second metal connecting block connected to the other end of the belt body is provided, and fixing holes that communicate with each other are provided in the first metal connecting block and the second metal connecting block, and the fixing wire is fixed. The first metal connecting block and the second metal connecting block are integrally connected by being drilled in the hole, and the material supply device and the front material fixing clip are provided on the frame at the tip of the pulling roller, and A movable feed clip is slidably provided on the end frame, a rear material fixing clip is provided on the rear frame of the movable feed clip, and a front metal connecting block is provided on the rear frame of the rear material fixing clip. A detector is provided, a cutting machine is provided in a frame at the rear end of the front metal connection block detector, and a rear metal connection block detector is provided in a frame at the rear end of the cutting machine. A cut resistant conveyor belt nip roller is provided on the frame at the rear end of the container.

The advantage of the present invention is that the non-metal material blank/press conveyor belt quick change mechanism has a novel structure, is easy to replace, saves time and labor, and has a fast change speed, low cost, and high work efficiency. Is to be able to meet the production needs of companies.

FIG. 3 is a schematic structural view of the non-metal material blank/press conveyor belt quick change mechanism of the present invention in an initial state. FIG. 3 is a schematic view of a structure of the non-metal material blank press conveyor belt quick change mechanism of the present invention in a feeding state. FIG. 3 is a structural schematic diagram of a non-metal material blank/press conveyor belt rapid exchange mechanism when the cutting resistant conveyor belt is running and the material is not running. FIG. 2 is an enlarged structural schematic diagram of a portion A in FIG. 1. FIG. 3 is a schematic diagram of a three-dimensionally connected structure of a cut-resistant transport belt of a transport belt rapid exchange mechanism for a non-metal material blank press according to the present invention.

Hereinafter, specific contents of the present invention will be described in detail with reference to the drawings and specific embodiments.

As shown in FIGS. 1, 2, 3, 4, and 5, the quick transfer mechanism for a non-metal material blank press includes a frame 1, an upper driven roller 2 provided on the upper left side of the frame 1, and a lower end of the frame 1. The lower driven roller 3 provided on the left side, the pulling roller 4 provided on the upper right side of the frame 1 and the skew roller 5 provided on the lower right side of the frame 1 include the upper driven roller 2, the lower driven roller 3 and the skew. The roller 5 and the pulling roller 4 are connected by a cut resistant conveyor belt 6. The structure of the cut-resistant transport belt 6 includes an opening belt main body 61 and a plurality of first metal connecting blocks 62 uniformly provided at one end of the opening belt main body 61, and between two adjacent first metal connecting blocks 62. Is provided with a second metal connecting block 63 connected to the other end of the opening belt main body 61, and fixing holes 64 communicating with each other are provided in the first metal connecting block 62 and the second metal connecting block 63. And the fixing wire 65 is bored in the fixing hole 64 to connect the first metal connecting block 62 and the second metal connecting block 63, and the material supplying device 7 to the frame 1 at the tip of the pulling roller 4. And a front material fixing clip 8 are provided, a movable feeding clip 9 is slidably provided on the frame 1 at the rear end of the pulling roller 4, and a rear material fixing clip is provided on the frame 1 at the rear end of the movable feeding clip 9. 10 is provided, a front metal connecting block detector 11 is provided on the frame 1 at the rear end of the rear material fixing clip 10, and a cutting machine 12 is provided on the frame 1 at the rear end of the front metal connecting block detector 11. A rear metal connecting block detector 13 is provided on the frame 1 at the rear end of the cutting machine 12, and a cut resistant conveyance belt nip roller 14 is provided on the frame 1 at the rear end of the rear metal connecting block detector 13.

When exchanging the conveyor belt by the conveyor belt quick exchange mechanism for non-metal material blank press, the fixing wire 65 is pulled out from the fixing hole 64, and the first metal connecting block 62 and the second metal connecting block 63 are separated from each other to form an annular shape. The cut-resistant transport belt 6 has an open cut-resistant transport belt structure, the open cut-resistant transport belt is removed from the frame 1, and a new open-cut resistant transport belt is rotated around the frame 1 to remove the cut-resistant transport belt from both ends. The first metal connection block 62 and the second metal connection block 63 are connected via the fixed wire 65. This allows the replacement and installation to be completed quickly.

In the case of using the transport belt quick change mechanism for the non-metal material blank press, as shown in FIGS. 1, 2, 4, and 5, when the material is supplied, the front material fixing clip 8 and the rear material fixing clip 10 are provided by the cylinder. Then, the cut resistant conveyance belt nip roller 14 is turned on. The material is fed to the cut-resistant transport belt 6 by the material supply device 7, the movable feed clip 9 is moved by the cylinder to clamp the material and the cut-resistant transport belt 6, and the movable feed clip 9 is moved by the drive device to move the frame 1. When the material is fed to the lower end of the cutting machine 12, the rear material fixing clip 10 is moved by the cylinder to clamp the material and the cut resistant conveyor belt 6, and the movable feeding clip 9 is reset. Turns on and returns to its original position. Then, the cutting machine 12 is activated to cut the material, and after the cutting is completed, the reset of the rear material fixing clip 10 is turned on. The cylinder moves the movable feed clip 9 again to clamp the material and the cut resistant conveyor belt 6, and the drive moves the movable feed clip 9 to re-slide backwards on the frame 1 to cut the material. It is sent to the lower end of 12 and the next cutting process is performed. As shown in FIGS. 3 and 5, the movable feed clip 9 moves the material and the cut resistant conveyor belt 6 to supply the material together. When the first metal connection block 62 and the second metal connection block 63 on the cut-resistant transport belt 6 move to directly below the front metal connection block detector 11, the front metal connection block detector 11 transmits the detector signal to the controller. To do. The control device controls the cylinder to turn on the movable feed clip 9 and the rear material fixing clip 10, and at the same time, turn off the front material fixing clip 8 and the cut resistant conveyance belt nip roller 14. The cutting resistant conveyance belt nip roller 14 is controlled and rotated by the drive device, and the cutting resistant conveyance belt nip roller 14 moves the cutting resistant conveyance belt 6 to move it backward. At this time, the material is held stationary by the action of the front material fixing clip 8, and the first metal connecting block 62 and the second metal connecting block 63 on the cut-resistant transport belt 6 are located directly below the rear metal connecting block detector 13. Upon moving, the rear metal tether block detector 13 transmits a detector signal to the controller. The control unit controls the cylinder to turn off the movable feed clip 9, and at the same time, turn on the front material fixing clip 8 and the cut resistant conveyance belt nip roller 14. The cutting resistant conveyance belt nip roller 14 is controlled and rotated by the drive device, and the cutting resistant conveyance belt nip roller 14 moves the cutting resistant conveyance belt 6 to move it backward. When the movable feed clip 9 is moved by the drive device and slid backward on the frame 1 and the material is fed to the lower end of the cutting machine 12, the rear material fixing clip 10 is moved by the cylinder to convey the material and cut-resistant transport. The belt 6 is clamped, the reset of the movable feed clip 9 is turned on, and the movable feed clip 9 is returned to the original position. The cutting machine 12 is activated to perform the cutting process on the material, and after the cutting is completed, the above-described operation is repeated to continuously perform the cutting process.

The non-metal material blank press press conveyor belt quick change mechanism has a novel structure, easy to replace, save time and labor, fast change speed, low cost, improve work efficiency, Can meet production needs.

1, frame 2, upper driven roller 3, lower driven roller 4, tension roller 5, skew roller 6, cut resistant conveyor belt 61, opening belt main body 62, first metal connecting block 63, second metal connecting block 64, fixing hole 65, fixing wire 7, material feeding device 8, front material fixing clip 9, movable feed clip 10, rear material fixing clip 11, front metal connecting block detector 12, cutting machine 13, rear metal connecting block detector 14, resistance Cutting Conveyor Belt Nip Roller

Claims (1)

Frame (1), upper driven roller (2) provided on the upper left side of the frame (1), lower driven roller (3) provided on the lower left side of the frame (1), provided on the upper right side of the frame (1) A pulling roller (4) and a skew roller (5) provided on the lower right side of the frame (1). The upper driven roller (2), the lower driven roller (3), the skew roller (5) and the pulling roller. The cut resistant transport belts (6) are connected to each other between (4), and the cut resistant transport belt (6) has a structure in which the opening belt main body (61) and a plurality of opening belt main bodies (61) are uniformly provided at one end thereof. Second metal connection block (62), which is connected to the other end of the opening belt body (61) between two adjacent first metal connection blocks (62). 63) is provided, and fixing holes (64) communicating with each other are provided in the first metal connecting block (62) and the second metal connecting block (63), and the fixing wire (65) is fixed. The material supply device is provided in the frame (1) at the tip of the pulling roller (4) by being drilled in the hole (64) to connect the first metal connecting block (62) and the second metal connecting block (63) together. (7) and a front material fixing clip (8) are provided, and a movable feed clip (9) is slidably provided on the frame (1) at the rear end of the tension roller (4). A rear material fixing clip (10) is provided on the rear end frame (1) of the rear end frame (1), and a front metal connecting block detector (11) is attached to the rear end frame (1) of the rear material fixing clip (10). And a cutting machine (12) is provided on the rear end frame (1) of the front metal connection block detector (11), and a rear end is provided on the rear end frame (1) of the cutting machine (12). A non-metal, characterized in that a metal connection block detector (13) is provided, and a cut resistant conveyor belt nip roller (14) is provided on the frame (1) at the rear end of the rear metal connection block detector (13). Conveyor belt quick change mechanism for material blanks and presses.