CN204819766U - Novel cutting die structure - Google Patents
Novel cutting die structure Download PDFInfo
- Publication number
- CN204819766U CN204819766U CN201520435489.5U CN201520435489U CN204819766U CN 204819766 U CN204819766 U CN 204819766U CN 201520435489 U CN201520435489 U CN 201520435489U CN 204819766 U CN204819766 U CN 204819766U
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- China
- Prior art keywords
- cutting die
- top board
- die assembly
- mount pad
- slide rail
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Abstract
The utility model provides a novel cutting die structure, includes an actuating mechanism, second cutting die subassembly and the 2nd actuating mechanism of top board, at least one first cutting die subassembly, at least one and first cutting die subassembly one -to -one. The width direction activity of top board can be followed to first cutting die unit mount on the top board, the width direction activity of top board can be followed to second cutting die unit mount on the top board, first cutting die subassembly staggers on the length direction of top board with the movable track of second cutting die subassembly each other. The utility model discloses a first cutting die subassembly and second cutting die subassembly are all installed on the top board and can be followed the width direction activity of top board to first cutting die subassembly staggers on the length direction of top board with the movable track of second cutting die subassembly each other, and when first cutting die subassembly stayed the leftover bits region when cutting the material, the cutting die of second cutting die subassembly can cut the leftover bits region, can effectively provide the utilization ratio of material like this.
Description
Technical field
The utility model relates to cutting machine field, particularly the cutter die structure of cutting machine.
Background technology
Cutting machine comprises frame, conveyer belt, top board, elevating mechanism and cutting die assembly, conveyer belt is for transmitting material, top board to be installed in frame and to be positioned at above conveyer belt, cutting die assembly is installed on top board, and can be movable along the width of top board under the drive of driving mechanism, cutting die assembly comprises cutting die gland, and cutting die gland is fixed with cutting die, elevating mechanism drives top board to pump, thus drives cutting die assembly cutting material.
Existing cutting machine is generally arrange single cutting die assembly at top board, when cutting material, cutting die cuts along the width of material, most leftover pieces that can leave width in the side of material and be less than a cutting die size, cause the waste of material, reduce the utilization rate of material.
Utility model content
For the deficiencies in the prior art, the purpose of this utility model is intended to provide a kind of Novel cutting die structure, effectively can provide the utilization rate of material.
For achieving the above object, the utility model adopts following technical scheme:
A kind of Novel cutting die structure, comprising:
Top board;
At least one first cutting die assembly that width along top board arranges, the first cutting die assembly is installed on also can be movable along the width of top board on top board;
At least one and the first cutting die assembly the first driving mechanism one to one, the first driving mechanism is for driving this first cutting die assembly movable along the width of top board;
Second cutting die assembly, the second cutting die assembly is installed on also can be movable along the width of top board on top board, and the event trace of the first cutting die assembly and the second cutting die assembly mutually staggers on the length direction of top board;
Second driving mechanism, for driving this second cutting die assembly movable along the width of top board.
First cutting die assembly comprises the first mount pad, the first gland, the first cutting die and the 3rd driving mechanism, first gland is installed on the first mount pad, first gland is articulated on the first mount pad by the first cutting die axle, and the 3rd driving mechanism to be installed on the first mount pad and for driving the first gland to rotate.
Second cutting die assembly comprises the second mount pad, the second gland, the second cutting die and four-wheel drive mechanism, second gland is installed on the second mount pad, second gland is articulated on the second mount pad by the second cutting die axle, and four-wheel drive mechanism to be installed on the second mount pad and for driving the second gland to rotate.
Top board is provided with the first slide rail and the second slide rail that extend along its width, and the first cutting die assembly and the first slide rail are slidably matched, and the second cutting die assembly and the second slide rail are slidably matched.
First slide rail extends to the other end of top board from one end of top board, and the second slide rail extends internally from the other end of top board.
The end of the first slide rail one end inside top board is between the both ends of the second slide rail.
First driving mechanism comprises the first motor and the first belt by the first driven by motor, and the first mount pad of the first cutting die assembly is fixedly arranged on the first belt of the first driving mechanism corresponding with it.
Second driving mechanism comprises the second motor and the second belt by the second driven by motor, and the second mount pad of the second cutting die assembly is fixedly arranged on the second belt of the second driving mechanism corresponding with it.
The beneficial effects of the utility model are:
Compared to prior art, the utility model operationally, conveyer belt drives convey materials to move horizontally, first cutting die assembly and the second cutting die assembly are all installed on also can be movable along the width of top board on top board, and the event trace of the first cutting die assembly and the second cutting die assembly mutually staggers on the length direction of top board, so in use, the cutting die that first cutting die assembly and the second cutting die assembly can configure different size cuts, such as at the cutting die that the second cutting die arrangement of components size is less, such first cutting die assembly leaves leftover pieces region during when cutting material, the cutting die of the second cutting die assembly can cut leftover pieces region, the utilization rate of material can be effectively provided like this.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model;
Fig. 2 is using state schematic diagram of the present utility model (demonstrating the structure of the second cutting die assembly and the second driving mechanism);
Fig. 3 is the internal structure schematic diagram of top board;
Fig. 4 is the structural representation of the first cutting die assembly;
Fig. 5 is the structural representation of the second cutting die assembly;
Wherein: 10, top board; 11, the first slide rail; 12, the second slide rail; 20, the first cutting die assembly; 21, the first mount pad; 211, the first slide block; 22, the first gland; 23, the first cutting die; 24, the 3rd driving mechanism; 241, the 3rd motor; 242, the 3rd driving pulley; 243, the 3rd driven pulley; 244, the 3rd belt; 25, the first cutting die axle; 30, the first driving mechanism; 31, the first motor; 32, the first belt; 40, the second cutting die assembly; 41, the second mount pad; 411, the second slide block; 42, the second gland; 44, four-wheel drive mechanism; 441, the 4th motor; 442, the 4th driving pulley; 443, the 4th driven pulley; 444, the 4th belt; 45, the second cutting die axle; 50, the second driving mechanism; 51, the second motor; 52, the second belt; 60, conveyer belt; 70, material; 71, leftover pieces region.
Detailed description of the invention
Below, by reference to the accompanying drawings and detailed description of the invention, the utility model done describe further:
As shown in Figures 1 to 5, Novel cutting die structure of the present utility model, comprises top board 10, at least one first cutting die assembly 20, at least one and the first cutting die assembly 20 first driving mechanism 30, second cutting die assembly 40 and the second driving mechanism 50 one to one.At least one first cutting die assembly 20 arranges along the width of top board 10, and the first cutting die assembly 20 is installed on also can be movable along the width of top board 10 on top board 10; First driving mechanism 30 is for driving this first cutting die assembly 20 movable along the width of top board 10; Second cutting die assembly 40 is installed on also can be movable along the width of top board 10 on top board 10, and the event trace of the first cutting die assembly 20 and the second cutting die assembly 40 mutually staggers on the length direction of top board 10; Second driving mechanism 50 is for driving this second cutting die assembly 40 movable along the width of top board 10.
The utility model operationally, conveyer belt 60 drives convey materials 70 to move horizontally, first cutting die assembly 20 and the second cutting die assembly 40 are all installed on also can be movable along the width of top board 10 on top board 10, and the event trace of the first cutting die assembly 20 and the second cutting die assembly 40 mutually staggers on the length direction of top board 10, so in use, the cutting die that first cutting die assembly 20 and the second cutting die assembly 40 can configure different size cuts, such as at the cutting die that the second cutting die assembly 40 configuration sized is less, such first cutting die assembly 20 leaves leftover pieces region 71 during when cutting material 70, the cutting die of the second cutting die assembly 40 can cut leftover pieces region 71, the utilization rate of material 70 can be effectively provided like this.
Further, first cutting die assembly 20 comprises the first mount pad 21, first gland 22, first cutting die 23 and the 3rd driving mechanism 24, first gland 22 is installed on the first mount pad 21, first gland 22 is articulated on the first mount pad 21 by the first cutting die axle 25,3rd driving mechanism 24 to be installed on the first mount pad 21 and for driving the first gland 22 to rotate, like this, what the first cutting die assembly 20 can adjust the first cutting die 23 when cutting cuts angle.
Further, 3rd driving mechanism 24 comprises the 3rd motor 241, the 3rd driving pulley 242, the 3rd driven pulley 243 and the 3rd belt 244,3rd driving pulley 242 is synchronously connected in the rotating shaft of the 3rd motor 241,3rd driven pulley 243 is synchronously connected on the first cutting die axle 25, and what the 3rd belt 244 was synchronous is socketed on the 3rd driving pulley 242 and the 3rd driven pulley 243.
Further, the first cutting die assembly 20 can arrange multiple, and multiple like this first cutting die assembly 20 can cut on the same line simultaneously, thus the bull realizing cutting machine cuts simultaneously; When the whole plate of needs cuts, first cutting die 23 of the first cutting die assembly 20 is unloaded, first gland 22 of a whole plate cutting die with multiple first cutting die assembly 20 is fixedly connected with, the whole plate that whole plate cutting die realizes cutting machine under the drive of top board 10 cuts, because the first gland 22 has multiple, therefore whole plate cutting die is comparatively firm in installation, stressed comparatively even, thus not easily swings when moving.
Further, second cutting die assembly 40 comprises the second mount pad 41, second gland 42, second cutting die (not shown) and four-wheel drive mechanism 44, second gland 42 is installed on the second mount pad 41, second gland 42 is articulated on the second mount pad 41 by the second cutting die axle 45, four-wheel drive mechanism 44 to be installed on the second mount pad 41 and for driving the second gland 42 to rotate, like this, what the second cutting die assembly 40 can adjust the second cutting die when cutting cuts angle.
Further, four-wheel drive mechanism 44 comprises the 4th motor 441, the 4th driving pulley 442, the 4th driven pulley 443 and the 4th belt 444,4th driving pulley 442 is synchronously connected in the rotating shaft of the 4th motor 441,4th driven pulley 443 is synchronously connected on the second cutting die axle 45, and what the 4th belt 444 was synchronous is socketed on the 4th driving pulley 442 and the 4th driven pulley 443.
Further, top board 10 is provided with the first slide rail 11 and the second slide rail 12, first cutting die assembly 20 that extend along its width and the first slide rail 11 is slidably matched, and the second cutting die assembly 40 and the second slide rail 12 are slidably matched.
Further, the first mount pad 21 and the second mount pad 41 are respectively equipped with the first slide block 211 and the second slide block 411, first slide block 211 and the second slide block 411 to be slidably matched with the first slide rail 11 and the second slide rail 12 respectively.Further, when the first cutting die assembly 20 is multiple, top board 10 can arrange first slide rail 11, and the first mount pad 21 of multiple first cutting die assembly 20 can be installed on same first slide rail 11; Or top board 10 can arrange multiple with the first cutting die assembly 20 one to one the first mount pad 21 of the first slide rail 11, first cutting die assembly 20 be arranged on first slide rail 11.
Further, first slide rail 11 extends to the other end of top board 10 from one end of top board 10, the second slide rail 12 extends internally from the other end of top board 10, like this, second cutting die assembly 40 can be movable on the end of top board 10 width, is more conducive to the leftover pieces cutting material 70.
Further, the end of first slide rail 11 one end inside top board 10 is between the both ends of the second slide rail 12, such first slide rail 11 and the second slide rail 12 mutually stacked, second cutting die assembly 40 can move to the cropped area of the first cutting die assembly 20, facilitates the first cutting die assembly 20 and the second cutting die assembly 40 to be mutually connected when cutting material 70.
Further, the first mount pad 21 of the first belt 32, first cutting die assembly 20 that the first driving mechanism 30 comprises the first motor 31 and driven by the first motor 31 is fixedly arranged on the first belt 32 of the first driving mechanism 30 corresponding with it.
Further, the second mount pad 41 of the second belt 52, second cutting die assembly 40 that the second driving mechanism 50 comprises the second motor 51 and driven by the second motor 51 is fixedly arranged on the second belt 52 of the second driving mechanism 50 corresponding with it.
To one skilled in the art, according to technical scheme described above and design, other various corresponding change and deformation can be made, and all these change and deformation all should belong within the protection domain of the utility model claim.
Claims (8)
1. a Novel cutting die structure, is characterized in that, comprising:
Top board;
At least one first cutting die assembly that width along top board arranges, the first cutting die assembly is installed on also can be movable along the width of top board on top board;
At least one and the first cutting die assembly the first driving mechanism one to one, the first driving mechanism is for driving this first cutting die assembly movable along the width of top board;
Second cutting die assembly, the second cutting die assembly is installed on also can be movable along the width of top board on top board, and the event trace of the first cutting die assembly and the second cutting die assembly mutually staggers on the length direction of top board;
Second driving mechanism, for driving this second cutting die assembly movable along the width of top board.
2. Novel cutting die structure as claimed in claim 1, it is characterized in that, first cutting die assembly comprises the first mount pad, the first gland, the first cutting die and the 3rd driving mechanism, first gland is installed on the first mount pad, first gland is articulated on the first mount pad by the first cutting die axle, and the 3rd driving mechanism to be installed on the first mount pad and for driving the first gland to rotate.
3. Novel cutting die structure as claimed in claim 1, it is characterized in that, second cutting die assembly comprises the second mount pad, the second gland, the second cutting die and four-wheel drive mechanism, second gland is installed on the second mount pad, second gland is articulated on the second mount pad by the second cutting die axle, and four-wheel drive mechanism to be installed on the second mount pad and for driving the second gland to rotate.
4. Novel cutting die structure as claimed in claim 1, it is characterized in that, top board is provided with the first slide rail and the second slide rail that extend along its width, and the first cutting die assembly and the first slide rail are slidably matched, and the second cutting die assembly and the second slide rail are slidably matched.
5. Novel cutting die structure as claimed in claim 4, it is characterized in that, the first slide rail extends to the other end of top board from one end of top board, and the second slide rail extends internally from the other end of top board.
6. Novel cutting die structure as claimed in claim 5, it is characterized in that, the end of the first slide rail one end inside top board is between the both ends of the second slide rail.
7. Novel cutting die structure as claimed in claim 1, it is characterized in that, first driving mechanism comprises the first motor and the first belt by the first driven by motor, and the first mount pad of the first cutting die assembly is fixedly arranged on the first belt of the first driving mechanism corresponding with it.
8. Novel cutting die structure as claimed in claim 1, it is characterized in that, second driving mechanism comprises the second motor and the second belt by the second driven by motor, and the second mount pad of the second cutting die assembly is fixedly arranged on the second belt of the second driving mechanism corresponding with it.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520435489.5U CN204819766U (en) | 2015-06-23 | 2015-06-23 | Novel cutting die structure |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520435489.5U CN204819766U (en) | 2015-06-23 | 2015-06-23 | Novel cutting die structure |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN204819766U true CN204819766U (en) | 2015-12-02 |
Family
ID=54677407
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201520435489.5U Active CN204819766U (en) | 2015-06-23 | 2015-06-23 | Novel cutting die structure |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN204819766U (en) |
-
2015
- 2015-06-23 CN CN201520435489.5U patent/CN204819766U/en active Active
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| TR01 | Transfer of patent right | ||
| TR01 | Transfer of patent right |
Effective date of registration: 20180920 Address after: 510000 1A 1 building, No. 2 Xiahe Road, Jianggao Town, Baiyun District, Guangzhou, Guangdong, China, 1 Patentee after: Guangzhou Chuang speed automation technology Co., Ltd. Address before: 510000 25 buildings of Furong green garden, Shiling Road, Huadu District, Guangzhou, Guangdong Patentee before: Beng Rongfu |
|
| TR01 | Transfer of patent right | ||
| TR01 | Transfer of patent right |
Effective date of registration: 20210120 Address after: 510000 Building 1, workshop B, No.4 Shanqian Avenue South, Qixin village, Shiling Town, Huadu District, Guangzhou City, Guangdong Province Patentee after: Guangzhou chuangsu Machinery Co.,Ltd. Address before: 510000 1A 1 building, No. 2 Xiahe Road, Jianggao Town, Baiyun District, Guangzhou, Guangdong, China, 1 Patentee before: Guangzhou Chuangsu Automation Technology Co.,Ltd. |