阅读说明：本技术 一种铆扣裁切设备 (Riveting cutting equipment ) 是由 邢国华 李银 于 2019-09-17 设计创作，主要内容包括：本发明公开了一种铆扣裁切设备,包括机架、沿所述机架长度方向设置的放料组件、第一输送组件、冲孔组件、铆扣组件、第二输送组件以及裁切组件；所述放料组件包括放料辊筒以及位于所述放料辊筒两端的支撑架；所述第一输送组件包括第一主动驱动结构以及第一从动驱动结构；所述冲孔组件包括冲孔气缸以及冲头；所述铆扣组件包括铆扣机与位于所述铆扣机一侧的振动盘上料结构；所述第二输送组件包括第二主动驱动结构以及第二从动驱动结构；所述裁切组件包括裁切气缸以及位于所述裁切气缸活塞杆端的裁切块。本发明能够连续对毛毡面料进行冲孔、铆扣以及裁切操作,加工效率高,同时无需较多人工干预操作,保证了产品加工的一致性。(The invention discloses rivet button cutting equipment which comprises a rack, a discharging assembly, a first conveying assembly, a punching assembly, a rivet button assembly, a second conveying assembly and a cutting assembly, wherein the discharging assembly, the first conveying assembly, the punching assembly, the rivet button assembly, the second conveying assembly and the cutting assembly are arranged along the length direction of the rack; the discharging assembly comprises a discharging roller and support frames positioned at two ends of the discharging roller; the first conveying assembly comprises a first driving structure and a first driven driving structure; the punching assembly comprises a punching cylinder and a punch; the riveting component comprises a riveting machine and a vibrating disc feeding structure positioned on one side of the riveting machine; the second conveying assembly comprises a second driving structure and a second driven driving structure; the cutting assembly comprises a cutting cylinder and a cutting block located at the end of the piston rod of the cutting cylinder. The invention can continuously carry out punching, riveting and cutting operations on the felt fabric, has high processing efficiency, does not need more manual intervention operations, and ensures the processing consistency of products.)

1. The rivet cutting equipment is characterized by comprising a rack, a discharging assembly, a first conveying assembly, a punching assembly, a rivet assembly, a second conveying assembly and a cutting assembly, wherein the discharging assembly, the first conveying assembly, the punching assembly, the rivet assembly, the second conveying assembly and the cutting assembly are arranged along the length direction of the rack; wherein:

the discharging assembly comprises a discharging roller and support frames positioned at two ends of the discharging roller;

the first conveying assembly comprises a first driving structure and a first driven driving structure positioned above the first driving structure;

the punching assembly comprises a punching cylinder and a punch positioned at the piston rod end of the punching cylinder;

the riveting component comprises a riveting machine and a vibrating disc feeding structure positioned on one side of the riveting machine;

the second conveying assembly comprises a second driving structure and a second driven driving structure positioned above the second driving structure;

the cutting assembly comprises a cutting cylinder and a cutting block located at the end of the piston rod of the cutting cylinder.

2. The rivet cutting apparatus of claim 1 wherein a material loading table is provided on the frame.

3. The rivet cutting apparatus of claim 1 wherein the first conveyor assembly interfaces with the drop assembly through a tensioning bracket.

4. The rivet cutting apparatus of claim 1 wherein the first positive drive arrangement includes a first motor, a first shaft at a drive end of the first motor, and a first rotatable roller on the first shaft.

5. The rivet cutting apparatus of claim 4 wherein said first driven drive structure includes a first driven shaft and first driven blocks on said first driven shaft, said first driven blocks being in a one-to-one correspondence with said first rotating rollers in a number consistent with said first rotating rollers.

6. The rivet cutting apparatus of claim 1 wherein the punch assemblies are two in number and are located on each side of the frame.

7. The rivet cutting apparatus of claim 1 wherein the rivet assemblies are in two groups and are located on opposite sides of the frame.

8. The rivet cutting apparatus of claim 1 wherein the second active drive arrangement includes a second motor, a second shaft at the drive end of the second motor, and a second rotating roller on the second shaft.

9. The rivet cutting apparatus of claim 8 wherein said second driven drive structure includes a second driven shaft and second driven blocks on said second driven shaft, said second driven blocks being in one-to-one correspondence with said second turning rolls in a consistent number.

10. The rivet cutting apparatus of claim 1, wherein the frame is further provided with a control assembly, and the control assembly is electrically connected to the first conveying assembly, the punching assembly, the rivet assembly, the second conveying assembly and the cutting assembly.

Technical Field

The invention belongs to the technical field of fabric processing, and particularly relates to rivet button cutting equipment.

Background

The felt fabric is usually required to be drilled, riveted and cut in the production and processing process, the traditional processing mode is simplex processing, namely, the felt fabric is respectively drilled, riveted and cut by adopting a manual intervention mode, the operation mode needs more manpower, the labor intensity of workers is increased, the efficiency is low, meanwhile, the manual intervention is more, the processed products are not consistent easily, and the consistency of the products is difficult to guarantee.

Disclosure of Invention

The invention overcomes the defects of the prior art and provides riveting and cutting equipment to solve the problems in the prior art.

In order to achieve the purpose, the invention adopts the technical scheme that: the rivet button cutting equipment comprises a rack, a material discharging assembly, a first conveying assembly, a punching assembly, a rivet button assembly, a second conveying assembly and a cutting assembly, wherein the material discharging assembly, the first conveying assembly, the punching assembly, the rivet button assembly, the second conveying assembly and the cutting assembly are arranged along the length direction of the rack; wherein: the discharging assembly comprises a discharging roller and support frames positioned at two ends of the discharging roller; the first conveying assembly comprises a first driving structure and a first driven driving structure positioned above the first driving structure; the punching assembly comprises a punching cylinder and a punch positioned at the piston rod end of the punching cylinder; the riveting component comprises a riveting machine and a vibrating disc feeding structure positioned on one side of the riveting machine; the second conveying assembly comprises a second driving structure and a second driven driving structure positioned above the second driving structure; the cutting assembly comprises a cutting cylinder and a cutting block located at the end of the piston rod of the cutting cylinder.

In a preferred embodiment of the present invention, the rack is provided with a material loading platform.

In a preferred embodiment of the invention, the first conveying assembly is butted with the discharging assembly through a tensioning bracket.

In a preferred embodiment of the present invention, the first active driving structure includes a first motor, a first rotating shaft located at a driving end of the first motor, and a first rotating roller located on the first rotating shaft.

In a preferred embodiment of the present invention, the first driven driving structure includes a first driven shaft and first driven blocks located on the first driven shaft, and the first driven blocks are consistent in number and in one-to-one correspondence with the first rotating rollers.

In a preferred embodiment of the present invention, the punching assemblies are two groups and are respectively located at two sides of the rack.

In a preferred embodiment of the present invention, the number of the rivet assemblies is two, and the rivet assemblies are respectively located at two sides of the frame.

In a preferred embodiment of the present invention, the second active driving structure includes a second motor, a second rotating shaft located at a driving end of the second motor, and a second rotating roller located on the second rotating shaft.

In a preferred embodiment of the present invention, the second driven driving structure includes a second driven shaft and second driven blocks located on the second driven shaft, and the second driven blocks are consistent in number and correspond to the second rotating rollers one by one.

In a preferred embodiment of the present invention, the frame is further provided with a control assembly, and the control assembly is electrically connected to the first conveying assembly, the punching assembly, the riveting assembly, the second conveying assembly and the cutting assembly.

The invention solves the defects in the background technology, and has the following beneficial effects:

according to the invention, under the matching action of the feeding component, the first conveying component, the punching component, the riveting component, the second conveying component and the cutting component, the punching, riveting and cutting operations can be continuously carried out on the felt fabric, so that the manpower consumption is reduced, the processing efficiency is high, meanwhile, more manual intervention operations are not needed, and the consistency of product processing is ensured.

Drawings

The invention is further explained below with reference to the figures and examples;

FIG. 1 is a schematic overall structure of a preferred embodiment of the present invention;

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

in the figure: 1. a frame; 2. a discharging component; 21. a material placing roller; 22. a support frame; 3. a first conveying assembly; 31. a first active drive structure; 32. a first driven drive structure; 4. a punching assembly; 41. punching a cylinder; 42. a punch; 5. a rivet assembly; 51. riveting and buckling machine; 52. a vibrating plate feeding structure; 6. a second transport assembly; 61. a second active drive structure; 62. a second driven drive arrangement; 7. cutting the assembly; 71. a cutting cylinder; 72. cutting into blocks; 8. a material loading platform; 9. tensioning the bracket; 10. and a control component.

Detailed Description

The invention will now be described in further detail with reference to the accompanying drawings and examples, which are simplified schematic drawings and illustrate only the basic structure of the invention in a schematic manner, and thus show only the constituents relevant to the invention.

As shown in fig. 1 and 2, the rivet cutting device comprises a frame 1, a discharging component 2 arranged along the length direction of the frame 1, a first conveying component 3, a punching component 4, a rivet component 5, a second conveying component 6 and a cutting component 7; wherein: the discharging assembly 2 comprises a discharging roller 21 and supporting frames 22 positioned at two ends of the discharging roller 21; the first conveying assembly 3 comprises a first driving structure 31 and a first driven driving structure 32 positioned above the first driving structure 31; the punching assembly 4 comprises a punching cylinder 41 and a punch 42 positioned at the piston rod end of the punching cylinder 41; the riveting component 5 comprises a riveting machine 51 and a vibrating disc feeding structure 52 positioned on one side of the riveting machine 51; the second conveying assembly 6 comprises a second driving structure 61 and a second driven driving structure 62 positioned above the second driving structure 61; the cutting assembly 7 includes a cutting cylinder 71 and a cutting block 72 at the end of the piston rod of the cutting cylinder 71.

In the use process of the invention, firstly, the felt fabric is put down from the feeding roller 21, the felt fabric is connected with the first conveying component 3 through the tensioning support 9, the felt fabric continuously moves on the material carrying table 8 under the matching action of the first conveying component 3 and the second conveying component 6, the punching components 4 positioned at two ends of the frame 1 continuously perform punching operation on two sides of the felt fabric, the riveting components 5 continuously perform riveting operation on two sides of the felt fabric, and after the riveting operation is finished, the felt fabric is cut by the cutting component 7, so that the consistency of product processing is ensured in the continuous processing process.

In this embodiment, the first conveying assembly 3 is composed of a first driving structure 31 and a first driven driving structure 32, the first driving structure 31 is composed of a first motor, a first rotating shaft located at the driving end of the first motor, and a first rotating roller located on the first rotating shaft, the first driven driving structure 32 is composed of a first driven shaft and a first driven block located on the first driven shaft, the first driven block is consistent in number and one-to-one corresponding to the first rotating roller, the second conveying assembly 6 is composed of a second driving structure 61 and a second driven driving structure 62, the second driving structure 61 is composed of a second motor, a second rotating shaft located at the driving end of the second motor, and a second rotating roller located on the second rotating shaft, the second driven driving structure 62 is composed of a second driven shaft and a second driven block located on the second driven shaft, the second driven block is consistent in number and one-to-one corresponding to the second rotating roller, when the first motor drives the first rotating roller to rotate, the first driven block synchronously rotates, and when the second motor drives the second rotating roller to rotate, the second driven block synchronously rotates, so that feeding operation of the felt fabric is jointly realized.

Specifically, in the working process of the punching assembly 4, the punching cylinder 41 drives the punch 42 to move, so that the felt fabric is punched, the riveting assembly 5 is fed by the vibrating disc feeding structure 52, the riveting machine 51 is used for riveting the felt fabric, and the cutting assembly 7 is driven by the cutting cylinder 71 to drive the cutting block 72 to move, so that the felt fabric is cut.

In this embodiment, the control component 10 includes an electric cabinet and a human-computer interface, a programmable PLC controller (model: ohm dragon CPM1A-10CDR-D-V1) is disposed in the electric cabinet, the programmable PLC controller controls the components, and the human-computer interface is convenient for manual control.

Further, a material loading platform 8 is arranged on the machine frame 1, and the material loading platform 8 can support the felt fabric.

Further, the first conveying assembly 3 is in butt joint with the discharging assembly 2 through a tensioning bracket 9, and the tensioning bracket 9 can enable the felt fabric to be in a tensioning state continuously.

Specifically, the punching assemblies 4 are two in number and are respectively located on two sides of the frame 1.

Specifically, the number of the riveting components 5 is two and the riveting components are respectively located on two sides of the frame 1.

Further, the frame 1 is also provided with a control assembly 10, and the control assembly 10 is electrically connected with the first conveying assembly 3, the punching assembly 4, the riveting assembly 5, the second conveying assembly 6 and the cutting assembly 7.

In summary, under the cooperation of the emptying component 2, the first conveying component 3, the punching component 4, the riveting component 5, the second conveying component 6 and the cutting component 7, the felt fabric can be continuously punched, riveted and cut, so that the labor consumption is reduced, the processing efficiency is high, and meanwhile, more manual intervention operations are not needed, and the consistency of product processing is ensured.

In light of the foregoing description of the preferred embodiment of the present invention, it is to be understood that various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.