CN213729997U - Thermos cup cutting machine that possesses dust collection structure - Google Patents

Abstract

The utility model relates to a thermos cup production facility technical field discloses a thermos cup cutting machine that possesses dust collection structure, comprises a workbench, rotate the revolving stage of placing on the workstation, be located the clamping structure who places on the revolving stage, go up and down in the hold-down mechanism who places the revolving stage directly over and in the laser cutting machine that workstation one side set up, be provided with dust collection structure placing revolving stage and workstation below, dust collection structure is including the air pump that is located the workstation below, go up and down the dust absorption portion that sets up and order about the dust absorption portion and carry out the first drive division that goes up and down in placing the revolving stage, when the dust absorption portion rises, it is just to laser cutting machine's laser sword, this cutting machine can be inside the abundant suction product of piece that the cutting produced when cutting the product, and life is showing and increasing.

Description

Thermos cup cutting machine that possesses dust collection structure

Technical Field

The utility model relates to a thermos cup production facility technical field specifically is a thermos cup cutting machine that possesses dust collection structure.

Background

The existing vacuum cup generally comprises an outer shell and an inner shell, and the processing flow of the outer shell comprises: outer tube material → cutting tube → water expansion → segmentation → bulging → rolling middle angle → shrinking bottom → punching rib → flat upper mouth → punching bottom → flat bottom mouth → washing and drying → checking knock pit → qualified shell.

After the water expands, the outer tube is in a shape with a large middle and small two ends, and one outer tube comprises two shells connected with the tail part and needs to be accurately cut by special equipment. The current cutting flow is, the outer tube after the arm expands with water is placed on the cutting machine, possess on the cutting machine and place the revolving stage, place and be provided with the tight seat of clamp of fixed outer tube lower extreme on the revolving stage, the cutting machine upper end goes up and down to be provided with pressing mechanism, 1/2 high department in the outer tube is provided with a laser cutting machine in cutting machine one side, during the cutting, laser is launched to laser cutting machine's laser sword, and the outer tube rotates the round along placing the revolving stage and accomplishes the cutting, then the arm takes out the outer tube and breaks into two the same shells gently with the fingers and thumb the outer tube along the laser cutting line.

In laser cutting, the cut site can generate debris that can adhere to the inner walls of the housing if left untreated, adding to the complexity of subsequent treatments. The event, can set up dust collecting equipment on current cutting machine, current dust collecting equipment divide into to set up on placing revolving stage bottom and hold-down mechanism, the outer tube is fixed back promptly, set up the dust absorption pipe on the upper and lower end of outer tube and carry out the dust absorption, because laser cutting position is in the middle part of outer tube, and current dust absorption pipe is far away from laser cutting position, lead to the dust absorption inefficiency, need very big suction could with the piece suction, so, the energy consumption is very big, be unfavorable for energy-conservation, and there is great piece remaining probability.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a thermos cup cutting machine that possesses dust collection structure.

In order to solve the technical problem, the utility model provides a following technical scheme: the utility model provides a thermos cup cutting machine that possesses dust collection structure, comprises a workbench, rotate the revolving stage of placing on the workstation, be located the tight structure of clamp on placing the revolving stage, go up and down in the hold-down mechanism who places the revolving stage directly over and in the laser cutting machine that workstation one side set up, be provided with dust collection structure placing revolving stage and workstation below, dust collection structure is including the air pump that is located the workstation below, in placing the first drive division that dust absorption portion that the revolving stage goes up and down set up and order about dust absorption portion and go up and down, when dust absorption portion rose, it was just to laser cutting machine's laser sword.

Further, when the dust suction part descends, the top of the dust suction part is lower than or flush with the bottom of the placing turntable.

Further, the air pump includes exhaust tube and blast pipe, and the dust absorption portion includes the dust absorption pipe that lower extreme and exhaust tube are connected and is located the dust absorption head at dust absorption pipe top, is provided with the dust absorption hole that just faces the laser sword when the dust absorption head rises in the outer rampart of dust absorption head.

Furthermore, a filtering mechanism is arranged on the exhaust pipe, the filtering mechanism divides the exhaust pipe into a front exhaust pipe and a rear exhaust pipe, the filtering mechanism comprises a closed filtering box, and a filter disc for filtering debris is arranged in the filtering box.

Furthermore, the filter disc is vertically arranged and divides the filter box into a dust collecting chamber and a cleaning chamber, and the air exhaust front pipe and the air exhaust rear pipe are respectively communicated with the dust collecting chamber and the cleaning chamber.

Furthermore, an air supply structure is arranged on the filter box, when the dust collection part rises, the air supply structure is closed, and dust collection is carried out at the moment; when the dust absorption part descends, the air supply structure is opened, and at the moment, air is pumped to cool the pump body.

Furthermore, the air supply structure comprises an air supply hole formed in the wall surface of the clean room, a first plug and a second driving part for driving the first plug to open or close the air supply hole.

Further, an air exhaust front pipe opening and closing mechanism is arranged on the dust collecting chamber and comprises a second plug arranged in the dust collecting chamber and a third driving part driving the second plug to open or close the air exhaust front pipe.

Compared with the prior art, the utility model discloses the beneficial effect who reaches is:

1. the dust collection structure is arranged in the placing rotary table in a lifting mode instead of a fixed mode, the dust collection portion ascends to aim at the laser cutting position to collect dust during laser cutting, and the dust collection portion descends to the position below the placing rotary table after dust collection, so that dust collection efficiency is remarkably improved, and smoothness of placement of a product by a manipulator is not affected;

2. the filter box is additionally provided with an air supplementing structure, when the dust collection part rises, the air supplementing structure is closed, and dust collection is carried out at the moment; when the dust absorption portion descends, the air supplementing structure is opened, at the moment, air is pumped to cool the pump body, and the service life of the air pump is remarkably prolonged by the structure.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a view of a vacuum cup cutting machine with a dust-absorbing structure of the present invention;

FIG. 2 is a front view of the dust suction structure of the present invention;

FIGS. 3-4 are isometric views of the dust extraction structure of the present invention;

FIG. 5 is a right side view of the dust collecting structure of the present invention;

figure 6 is a front view of the clamping head and elevator tube of the present invention.

In the figure: 1. a work table; 2. placing a rotary table; 201. a shaft sleeve; 202. placing a tube; 3. pressing a plate; 4. inserting a block; 5. a laser cutting machine; 6. a laser knife; 7. an air pump; 8. an air exhaust pipe; 801. a front air exhaust pipe; 802. a back pipe for air exhaust; 9. an exhaust pipe; 10. a driven gear; 11. a driving gear; 12. a motor; 13. a toothed chain; 1401. a clamping head; 14011. clamping the elastic sheet; 14012. a butting block; 1402. a lifting pipe; 1501. a dust collection pipe; 1502. a dust collection head; 16. a dust collection hole; 17. a filter box; 1701. a dust collecting chamber; 1702. a clean room; 18. a filter disc; 19. a second plug; 20. a third driving section; 21. a first plug; 22. a second driving section; 23. a first driving section; 24. a fixing plate; 25. a lifting plate; 26. and a fourth driving part.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

The utility model provides a thermos cup cutting machine that possesses dust collection structure, refer to fig. 1 and show, including workstation 1, rotate place revolving stage 2 on workstation 1, be located the tight structure of clamp on placing revolving stage 2, go up and down in the hold-down mechanism who places revolving stage 2 directly over and in the laser cutting machine 5 that workstation 1 one side set up, laser cutting machine 5 is current equipment, laser cutting machine 5 is provided with a liftable and adjusts and be close to or keep away from the laser sword 6 of placing revolving stage 2, revolving stage 2 is placed to the tool bit orientation of laser sword 6.

The placing turntable 2, as shown in fig. 2-3, includes a shaft sleeve 201 with a flange at the upper end, a placing pipe 202 fixed on the flange for placing an outer pipe, and a driving mechanism for driving the shaft sleeve 201 to rotate, wherein the main body of the shaft sleeve 201 is located below the worktable 1, the driving mechanism includes a driven gear 10 disposed below the worktable 1 and on the outer circumferential wall of the shaft sleeve 201, a driving gear 11 horizontally rotatably disposed on one side of the shaft sleeve 201 and engaged with the driven gear 10, and a motor 12 fixed below the worktable 1 and driving the driving gear 11 to rotate.

The clamping structure is shown in fig. 2 and fig. 6, and includes a clamping head 1401 disposed in the placing tube 202, an elevating tube 1402 passing through the shaft sleeve 201 from the lower part of the clamping head 1401 and extending downward, a horizontal elevating plate 25 fixed below the elevating tube 1402, a fixing plate 24 fixed with a workbench and disposed below the elevating plate 25, and a fourth driving part 26 disposed on the fixing plate 24 and driving the elevating plate 25 to ascend and descend so as to drive the clamping head 1401 to ascend and descend, the fourth driving part 26 is a cylinder symmetrically disposed on two sides of the elevating tube 1402, the cylinder body of the cylinder is fixed on the fixing plate 24, and the end of the piston rod of the cylinder is fixed on the lower end face of the elevating plate 25. The upper end of the clamping head 1401 is sunken with a slot for inserting an outer pipe, the upper end surface of the clamping head 1401 is sunken with relief slots at intervals around the circumference of the clamping head 1401 so as to drive the clamping head 1401 to be divided into a plurality of clamping elastic sheets 14011, the upper end of the outer wall of each clamping elastic sheet 14011 is outwards convexly provided with an upwards inclined abutting block 14012, and when the clamping head 1401 ascends, the abutting block 14012 is positioned above the placing pipe 202; when the clamping head 1401 is lowered, the abutment block 14012 abuts the placing tube 202 to drive the clamping spring 14011 to gradually approach the center of the slot to clamp the outer tube.

The cooperation of vertically leading between fall pipe 1402 and flange, concrete structure is: the outer wall of the lifting pipe 1402 is vertically and convexly provided with a guide block, the inner ring of the flange is sunken with a guide groove for guiding and sliding the guide block, and the lifting pipe 1402 and the shaft sleeve 201 can synchronously rotate and simultaneously move up and down relative to the shaft sleeve 201 by the arrangement.

The pressing mechanism is shown in the figure 1, and comprises an inserting block 4 which is vertically lifted and can be inserted into a narrow opening of the outer pipe, a pressing plate 3 which is fixed outside the inserting block 4 by taking the inserting block 4 as a center, and a fifth driving mechanism which drives the pressing plate 3 to lift, wherein the fifth driving mechanism can be driven to lift by adopting an air cylinder or an oil cylinder, and the lower end of the inserting block 4 partially extends to the lower part of the pressing plate 3.

A dust collection structure is arranged below the placing rotary table 2 and the workbench 1, and as shown in fig. 1-2, the dust collection structure comprises an air pump 7 positioned below the workbench 1, a dust collection part arranged in the placing rotary table 2 in a lifting manner, and a first driving part 23 for driving the dust collection part to lift, wherein when the dust collection part lifts, the dust collection part is over against a laser knife 6 of the laser cutting machine 5; when dust absorption portion descends, its top is less than the bottom of placing revolving stage 2 or flushes with the bottom of placing revolving stage 2, and dust absorption portion changes the lift setting into from fixed, and direct alignment laser cutting carries out the dust absorption after rising, and dust collection efficiency is showing and is promoting.

Air pump 7 includes exhaust tube 8 and blast pipe 9, the dust absorption portion includes dust absorption pipe 1501 that lower extreme and exhaust tube 8 are connected and the dust absorption head 1502 that is located the dust absorption pipe 1501 top, dust absorption head 1502 top is sealed and be provided with the dust absorption hole 16 that just faces laser sword 6 when dust absorption head 1502 rises at the outer rampart of dust absorption head 1502, dust absorption head 1502 can dismantle sealing connection in dust absorption pipe 1501 upper end, be provided with the internal thread below dust absorption head 1502 inner rampart, be provided with the external screw thread with female screw thread complex above dust absorption pipe 1501 outer rampart. The first driving part 23 is a cylinder with a cylinder body vertically fixed on the lower end surface of the workbench 1, the end part of a piston rod of the cylinder is fixedly connected with the outer wall of one end of the dust collection pipe 1501 far away from the dust collection head 1502, and when the piston rod extends out, the dust collection head 1502 descends; when the piston rod is retracted, the cleaning head 1502 is raised.

The air exhaust pipe 8 is provided with a filtering mechanism, the filtering mechanism divides the air exhaust pipe 8 into a front air exhaust pipe 801 and a rear air exhaust pipe 802, the filtering mechanism comprises a closed filtering box 17, a filtering sheet 18 for filtering debris is vertically arranged in the filtering box 17, filtering holes are uniformly distributed in the filtering sheet 18, the filtering box 17 is divided into a dust collecting chamber 1701 and a cleaning chamber 1702 by the filtering sheet 18, and the front air exhaust pipe 801 and the rear air exhaust pipe 802 are respectively communicated with the dust collecting chamber 1701 and the cleaning chamber 1702.

Example 2

In this embodiment, a gas supply structure is added to the embodiment 1. Because air pump 7 is in synchronous operating condition all the time at the cutting machine course of operation, if be connected with dust absorption head 1502 all the time, because dust absorption hole 16 is very little, so, the resistance is big when bleeding, and air pump 7 operation generates heat easily, and the pump body is extremely easily burnt off, so, pump body life is short, and based on above-mentioned problem, the tonifying qi structure of this scheme aims at prolonging the life of air pump 7. The concrete expression is that when the dust absorption part rises, the air supply structure is in a closed state, and dust absorption is carried out at the time; when the dust absorption part descends, the air supply structure is opened, and at the moment, air is pumped to cool the pump body.

The air supply structure is shown in fig. 3-5, and includes an air supply hole formed on the wall surface of the clean room 1702, a first plug 21, and a second driving portion 22 for driving the first plug 21 to open or close the air supply hole, and the aperture of the air supply hole is far larger than that of the dust collection hole, so as to ensure that air can smoothly enter the clean room.

The dust collection chamber is also provided with a front exhaust pipe opening and closing mechanism, and the front exhaust pipe opening and closing mechanism comprises a second plug (19) arranged in the dust collection chamber (1701) and a third driving part (20) for driving the second plug (19) to open or close the front exhaust pipe (801).

The specific operation process is as follows:

1. the mechanical arm puts the outer tube into a placing tube 202 of the placing turntable 2;

2. the fifth driving part drives the pressing plate 3 to press downwards and the inserting block 4 is partially inserted into the narrow opening at the upper end of the outer tube;

3. the fourth driving part 26 drives the lifting tube 1402 to descend, so as to drive the clamping spring 14011 to approach the bottom of the clamping outer tube towards the center of the slot;

4. the first driving part 23 drives the dust collection part to ascend, the third driving part 20 drives the opening and closing mechanism of the air exhaust front pipe to open, and the second driving part 22 drives the air supplement structure to close;

5. the driving mechanism drives the placing rotary table 2 and the clamping mechanism to synchronously rotate, meanwhile, the laser knife 6 is close to the placing rotary table 2 and emits laser for cutting, and after the placing rotary table 2 rotates for a circle, the laser knife 6 stops emitting the laser and is far away from the placing rotary table 2;

6. the first driving mechanism drives the dust collection part to descend, the third driving part 20 drives the opening and closing mechanism of the air exhaust front pipe to close, and the second driving part 22 drives the air supply structure to open;

7. the robot arm takes out the outer tube and separates it along the cutting line into two shells to be placed on the conveyor belt of the next run.

The whole cutting process is controlled by a PLC, the opening and closing time and the opening and closing sequence of each air cylinder and the motor 12 are controlled by a PLC program, and the cutting process is the prior art and is not repeated.

By adopting the scheme, the method at least has the following beneficial effects:

1. the dust collection structure is arranged in the placing rotary table 2 in a lifting mode instead of a fixed mode, when laser cutting is conducted, the dust collection part rises to be aligned with the laser cutting position to collect dust, and after dust collection, the dust collection part descends to the position below the placing rotary table 2, so that the dust collection efficiency is remarkably improved, and the smoothness of placing products by a manipulator is not influenced;

2. the filter box 17 is additionally provided with an air supplementing structure, when the dust collection part rises, the air supplementing structure is closed, and dust collection is carried out at the moment; when the dust absorption part descends, the air supplementing structure is opened, at the moment, air is pumped to cool the pump body, and the structure obviously prolongs the service life of the air pump 7.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (3)

1. The utility model provides a thermos cup cutting machine that possesses dust collection structure, includes workstation (1), rotates placing revolving stage (2) on workstation (1), is located the tight structure of clamp on placing revolving stage (2), goes up and down in the hold-down mechanism who places revolving stage (2) directly over and in laser cutting machine (5) that workstation (1) one side set up, its characterized in that: the dust collection structure is arranged below the placing rotary table (2) and the workbench (1), and comprises an air pump (7) located below the workbench (1), a dust collection part arranged in the placing rotary table (2) in a lifting mode and a first driving part (23) driving the dust collection part to lift, wherein when the dust collection part lifts, the dust collection part is over against a laser knife (6) of the laser cutting machine (5).

2. A vacuum cup cutting machine with a dust suction structure according to claim 1, characterized in that: when the dust suction part descends, the top of the dust suction part is lower than the bottom of the placing rotary table (2) or is flush with the bottom of the placing rotary table (2).

3. A vacuum cup cutting machine with a dust suction structure according to claim 1, characterized in that: the air pump (7) comprises an exhaust pipe (8) and an exhaust pipe (9), the dust collection part comprises a dust collection pipe (1501) with the lower end connected with the exhaust pipe (8) and a dust collection head (1502) positioned at the top of the dust collection pipe (1501), and a dust collection hole (16) which is opposite to the laser knife (6) when the dust collection head (1502) rises is formed in the outer annular wall of the dust collection head (1502).

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