CN216784984U - Automatic waste collecting mechanism - Google Patents

Abstract

The utility model discloses an automatic waste collecting mechanism which comprises a rack, a carrier, a lifting suction table, a waste blowing assembly and a waste collecting device, wherein the carrier, the lifting suction table, the waste blowing assembly and the waste collecting device are arranged on the rack; set up and inhale the platform with carrier matched with lift and absorb the waste material after the radium-shine cutting of product to blow to the waste material of inhaling the platform absorption through blowing useless subassembly and blow to receiving useless device in, promoted product yield and work efficiency.

Description

Automatic waste collecting mechanism

Technical Field

The utility model relates to the technical field of sound film processing equipment, in particular to an automatic waste material collecting mechanism.

Background

The sound film is a core component of a loudspeaker and a receiver, and the sound film vibrates and compresses air, so that the electro-acoustic conversion is completed. In the closed cavity, the film softened at high temperature is blown into the mold by air pressure to make the film have a certain shape, which is called as sound film forming process.

At present, the sound membrane shaping back that finishes, the carrier that will place the goods takes out, becomes fixed shape through laser machine with the radium-shine cutting of sound membrane goods, takes out the finished product diaphragm one by one from the carrier by the manual work of tweezers of operation personnel at last and inspects, and the waste material that radium-shine cutting got off then can remain on the carrier or the adhesion is on the finished product diaphragm, needs the operation personnel to clear away the waste material one by one, wastes time and energy.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is as follows: an automatic waste collecting mechanism is provided.

In order to solve the technical problems, the utility model adopts the technical scheme that: an automatic waste collecting mechanism comprises a rack, and a carrier, a lifting suction table, a waste blowing assembly and a waste collecting device which are arranged on the rack, wherein a plurality of placing grooves for placing products are formed in the carrier, waste holes communicated with the bottoms of the placing grooves are formed in the placing grooves, the carrier is arranged at the top of the rack and is positioned right above the lifting suction table, the lifting suction table is provided with protruding portions corresponding to the waste holes one by one, the protruding portions are provided with air suction holes, the lifting suction table is arranged on the rack in a lifting mode, and the waste blowing assembly is used for blowing waste materials sucked by the lifting suction table to the waste collecting device; the lifting suction table is further provided with a positioning guide pillar, and the carrier is provided with a positioning hole matched with the positioning guide pillar.

Further, still include the combination passageway, the combination passageway includes corresponding first pipeline and the second pipeline that sets up, first pipeline with it connects to receive useless device, the second pipeline with blow useless subassembly and be connected.

Furthermore, a position avoiding notch is formed in the bottom of the first pipeline, and the shape of the position avoiding notch is matched with that of the top of the lifting suction table; and the rack is also provided with a transverse moving driving component connected with the first pipeline and used for driving the first pipeline to transversely move along the central axis direction.

Furthermore, the transverse moving driving assembly comprises a transverse moving sliding block, a transverse moving sliding rail and a transverse moving air cylinder, the transverse moving air cylinder is installed on the rack and connected with the transverse moving sliding block, the transverse moving sliding rail is arranged on the transverse moving air cylinder, the transverse moving sliding block is slidably installed on the transverse moving sliding rail, and the first pipeline is installed on the transverse moving sliding block.

Furthermore, a contact switch is further arranged on the transverse moving cylinder, and a trigger piece used for triggering the contact switch is arranged on the transverse moving sliding block.

Furthermore, the top of the lifting suction table is also provided with a sliding groove matched with the first pipeline.

Furthermore, the waste blowing assembly comprises a mounting plate and a blowing pipeline, the mounting plate is mounted on the rack, the second pipeline is mounted on the mounting plate, one end of the blowing pipeline is communicated with the second pipeline, and the other end of the blowing pipeline is connected with an external blowing device.

Furthermore, the lifting suction table comprises a lifting cylinder, a lifting slide block, a lifting slide rail and a suction bearing platform; the lifting cylinder is arranged on the rack and connected with the lifting slide block, the lifting slide rail is arranged on the lifting cylinder, the lifting slide block is slidably arranged on the lifting slide rail and connected with the air suction carrier platform, and the bulge part is arranged at the top of the air suction carrier platform.

Furthermore, a limiting part is further arranged on the lifting cylinder and used for limiting the lifting slide block.

The utility model has the beneficial effects that: the automatic waste collecting mechanism provided by the utility model can automatically absorb waste and clear the waste, the lifting suction table matched with the carrier is arranged to absorb the waste after laser cutting of a product, the waste absorbed by the lifting suction table is blown into the waste collecting device through the waste blowing assembly, the positioning guide pillar is matched with the positioning hole, the matching precision of the lifting suction table and the carrier is improved, no waste residue is left after the product is subjected to laser cutting, and the product yield and the working efficiency are improved.

Drawings

Fig. 1 is a schematic structural view of an automatic waste material collecting mechanism according to an embodiment of the present invention (a lifting suction table is in a raised state);

FIG. 2 is a schematic structural view of an automatic waste collecting mechanism according to an embodiment of the present invention (a descending state of a lifting suction platform);

fig. 3 is a schematic partial structure diagram of an automatic waste material collecting mechanism according to an embodiment of the present invention.

Description of reference numerals:

1. a frame; 2. lifting the suction table; 21. an air intake carrier; 211. a boss portion; 212. a suction hole; 213. a sliding groove; 22. a lifting slide block; 23. a lifting cylinder; 24. lifting the slide rail; 25. a stopper; 26. an air intake duct; 3. a waste blowing assembly; 31. mounting a plate; 32. an air blowing pipeline; 33. a second conduit; 4. a waste collection device; 41. a first conduit; 42. avoiding gaps; 5. a traverse driving assembly; 51. a transverse moving cylinder; 52. transversely moving the sliding rail; 53. transversely moving the sliding block; 54. a trigger; 55. a contact switch; 56. a heightening column; 6. a carrier; 61. positioning holes; 7. and (5) producing the product.

Detailed Description

In order to explain technical contents, achieved objects, and effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1 to 3, an automatic waste collecting mechanism includes a frame 1, a carrier 6, a lifting suction table 2, a waste blowing assembly 3 and a waste collecting device 4, which are disposed on the frame 1, wherein a plurality of placing grooves for placing products 7 are disposed on the carrier 6, waste holes communicated with the bottoms of the placing grooves are disposed in the placing grooves, the carrier 6 is disposed on the top of the frame 1 and located right above the lifting suction table 2, protruding portions 211 corresponding to the waste holes one to one are disposed on the lifting suction table 2, the protruding portions 211 are provided with air suction holes 212, the lifting suction table 2 is disposed on the frame 1 in a lifting manner, and the waste blowing assembly 3 is used for blowing waste materials sucked by the lifting suction table 2 to the waste collecting device 4.

The working principle of the utility model is briefly described as follows: after the sound film product 7 is formed, taking out the carrier 6 with the product, fixing the carrier 6 to the top of the frame 1, driving the lifting suction table 2 to ascend, enabling the convex part 211 on the lifting suction table 2 to abut against a waste material area of the sound film product 7, tightly sucking the waste material through the air suction hole 212 on the convex part 211, and then carrying out laser cutting on the sound film product into a fixed shape through a laser machine; after laser cutting is finished, the lifting suction table 2 is driven to descend to the waste blowing component 3, at the moment, the suction holes 212 are cancelled to absorb waste materials, and the waste materials are blown to the waste collecting device 4 through the waste blowing component 3 to be collected.

From the above description, the beneficial effects of the present invention are: set up and inhale the waste material of platform 2 after 7 laser cutting with the lift of carrier 6 matched with and absorb to blow to receiving useless device 4 in through blowing useless subassembly 3 with the waste material that platform 2 was inhaled in the lift, make product 7 not have the waste material to remain after laser cutting, promoted 7 yields of product and work efficiency.

Further, the waste recycling device further comprises a combined channel, the combined channel comprises a first pipeline 41 and a second pipeline 33 which are correspondingly arranged, the first pipeline 41 is connected with the waste recycling device 4, and the second pipeline 33 is connected with the waste blowing component 3.

As can be seen from the above description, the combined pipeline facilitates blowing the waste into the waste collecting device 4 more accurately, and reduces the risk of splashing of the waste.

Further, a position avoiding notch 42 is formed in the bottom of the first pipeline 41, and the position avoiding notch 42 is matched with the top of the lifting suction table 2 in shape; the rack 1 is further provided with a traverse driving assembly 5 connected with the first pipeline 41 and used for driving the first pipeline 41 to traverse along the central axis direction thereof.

As can be seen from the above description, the avoiding gap 42 can avoid the lifting suction table 2, and the traverse driving assembly 5 covers the first pipe 41 on the lifting suction table 2 and abuts against the second pipe 33, so that the waste material is completely located in the combined pipe, and the waste material is blown into the waste collecting device 4.

Further, the traverse driving assembly 5 includes a traverse slider 53, a traverse slide rail 52 and a traverse cylinder 51, the traverse cylinder 51 is mounted on the frame 1 and connected to the traverse slider 53, the traverse slide rail 52 is disposed on the traverse cylinder 51, the traverse slider 53 is slidably mounted on the traverse slide rail 52, and the first pipe 41 is mounted on the traverse slider 53.

As can be seen from the above description, the traverse driving assembly 5 is simple and compact in structure.

Further, a contact switch 55 is further arranged on the traverse cylinder 51, and a trigger 54 for triggering the contact switch 55 is arranged on the traverse slide block 53.

As can be seen from the above description, the contact switch 55 facilitates limiting the traverse stroke of the traverse slider 53, so that the first conduit 41 is precisely butted against the second conduit 33.

Further, the top of the lifting suction table 2 is further provided with a sliding groove 213 matched with the first pipeline 41.

As can be seen from the above description, the sliding groove 213 is matched with the first pipe 41, so that the first pipe 41 can move more smoothly.

Further, the waste blowing assembly 3 comprises a mounting plate 31 and a blowing pipeline 32, the mounting plate 31 is mounted on the rack 1, the second pipeline 33 is mounted on the mounting plate 31, one end of the blowing pipeline 32 is communicated with the second pipeline 33, and the other end of the blowing pipeline is connected with an external blowing device.

As apparent from the above description, the mounting plate 31 facilitates the mounting of the second pipe 33, ensuring the stability of the position of the second pipe 33.

Further, the lifting suction table 2 comprises a lifting cylinder 23, a lifting slider 22, a lifting slide rail 24 and a suction carrier 21; the lifting cylinder 23 is mounted on the frame 1 and connected to the lifting slide block 22, the lifting slide rail 24 is disposed on the lifting cylinder 23, the lifting slide block 22 is slidably mounted on the lifting slide rail 24 and connected to the air suction carrier 21, and the protrusion 211 is disposed on the top of the air suction carrier 21.

Further, the air suction carrier 21 is further provided with a positioning guide post, and the carrier 6 is provided with a positioning hole 61 matched with the positioning guide post.

As can be seen from the above description, the positioning guide posts are matched with the positioning holes 61, so that the matching precision of the suction carrier 21 and the carrier 6 is improved.

Further, a limiting member 25 is further disposed on the lifting cylinder 23, and is used for limiting the lifting slider 22.

As can be seen from the above description, the limiting member 25 can limit the lifting stroke of the lifting slider 22, so that the suction carrier 21 can be accurately lowered to the position corresponding to the waste blowing assembly 3.

Example one

Referring to fig. 1 to fig. 3, a first embodiment of the present invention is: an automatic waste collecting mechanism is used for collecting waste of a laser-cut sound film product 7, so that ordered production is guaranteed; the waste blowing and collecting device comprises a rack 1, and a carrier 6, a lifting suction table 2, a waste blowing assembly 3 and a waste collecting device 4 which are arranged on the rack 1, wherein a plurality of placing grooves for placing products 7 are formed in the carrier 6, waste holes communicated with the bottoms of the placing grooves are formed in the placing grooves, the carrier 6 is arranged at the top of the rack 1 and is positioned right above the lifting suction table 2, a suction pipeline 26 and protruding parts 211 corresponding to the waste holes one by one are arranged on the lifting suction table 2, the protruding parts 211 are provided with suction holes 212 communicated with the suction pipeline 26, and the suction pipeline 26 is connected with an external suction device; the lifting suction table 2 is arranged on the rack 1 in a lifting manner, and the waste blowing assembly 3 is used for blowing waste sucked by the lifting suction table 2 to the waste collecting device 4; specifically, the waste collecting device 4 is a collecting pipeline with an air suction device, and the collecting pipeline is arranged right opposite to the waste blowing component 3.

Preferably, the automatic waste collecting mechanism further comprises a combined channel, the combined channel comprises a first pipeline 41 and a second pipeline 33 which are correspondingly arranged, the first pipeline 41 is connected with the waste collecting device 4, the second pipeline 33 is connected with the waste blowing assembly 3, specifically, a position avoiding notch 42 is arranged at the bottom of the first pipeline 41, and the position avoiding notch 42 is matched with the shape of the top of the lifting suction table 2; the rack 1 is further provided with a traverse driving assembly 5 connected with the first pipeline 41 and used for driving the first pipeline 41 to traverse along the central axis direction thereof, the position avoiding gap 42 can avoid the position of the lifting suction table 2, the first pipeline 41 is covered on the lifting suction table 2 through the traverse driving assembly 5 and is butted with the second pipeline 33, so that the waste is completely positioned in the combined pipeline, and the waste is blown into the waste collecting device 4; more specifically, the traverse driving assembly 5 includes a traverse slider 53, a traverse slide rail 52 and a traverse cylinder 51, the traverse cylinder 51 is mounted on the rack 1 and connected to the traverse slider 53, the traverse slide rail 52 is disposed on the traverse cylinder 51, the traverse slider 53 is slidably mounted on the traverse slide rail 52, and the first pipe 41 is mounted on the traverse slider 53.

In detail, a plurality of heightening columns 56 are arranged on the traverse sliding block 53, the traverse sliding block 53 is connected with the first pipeline 41 through the heightening columns 56, and the position height of the first pipeline 41 can be adjusted by replacing the heightening columns 56 with different sizes in the actual debugging process.

Preferably, the lifting suction table 2 comprises a lifting cylinder 23, a lifting slider 22, a lifting slide rail 24 and a suction carrier 21; the lifting cylinder 23 is mounted on the frame 1 and connected with the lifting slide block 22, the lifting slide rail 24 is arranged on the lifting cylinder 23, the lifting slide block 22 is slidably mounted on the lifting slide rail 24 and connected with the air suction carrier 21, and the protrusion 211 is arranged at the top of the air suction carrier 21; specifically, the air suction carrier 21 is further provided with a positioning guide post, and the carrier 6 is provided with a positioning hole 61 matched with the positioning guide post, so that the matching precision of the air suction carrier 21 and the carrier 6 is improved; more specifically, the lifting cylinder 23 is further provided with a limiting member 25 for limiting the lifting slider 22, so that the lifting stroke of the lifting slider 22 can be limited, and the air suction carrier 21 can be accurately lowered to a position corresponding to the waste blowing assembly 3.

In detail, when the lifting suction table 2 needs to be lifted, the traverse cylinder 51 drives the first pipe 41 on the traverse slider 53 to move in a direction away from the second pipe 33, so as to avoid the lifting action of the lifting suction table 2; when the lifting suction platform 2 descends to the position of the pipe orifice of the second pipe 33, the traversing cylinder 51 drives the first pipe 41 on the traversing slide block 53 to move towards the direction close to the second pipe 33, so that the butting with the second pipe 33 is realized, and a closed pipe environment is formed to discharge waste on the lifting suction platform 2 into the waste collecting device 4.

Preferably, referring to fig. 2, a contact switch 55 is further disposed on the traverse cylinder 51, a trigger 54 for triggering the contact switch 55 is disposed on the traverse slider 53, and specifically, the contact switch 55 is used for controlling the start and stop of the traverse cylinder 51, so as to conveniently limit the traverse stroke of the traverse slider 53, so that the first pipe 41 is accurately butted with the second pipe 33.

Preferably, the top of the lifting suction table 2 is further provided with a sliding groove 213 matched with the first pipeline 41, and the sliding groove 213 is matched with the first pipeline 41, so that the first pipeline 41 can move more stably; specifically, the sliding groove 213 is disposed on the suction stage 21, and a sealing member that is matched with the sliding groove 213 is further disposed at the edge of the clearance gap 42, and the sealing member may be a rubber ring, so that the sealing property after the first pipeline 41 is butted with the second pipeline 33 is ensured.

In this embodiment, the waste blowing assembly 3 comprises a mounting plate 31 and a blowing pipeline 32, the mounting plate 31 is mounted on the rack 1, the second pipeline 33 is mounted on the mounting plate 31, one end of the blowing pipeline 32 is communicated with the second pipeline 33, the other end of the blowing pipeline is connected with an external blowing device, the mounting plate 31 is convenient for mounting the second pipeline 33, and the position stability of the second pipeline 33 is ensured.

In summary, the automatic waste collecting mechanism provided by the utility model can automatically absorb waste and remove the waste, the lifting suction table matched with the carrier is arranged to absorb the waste after laser cutting of the product, and the waste absorbed by the lifting suction table is blown into the waste collecting device through the waste blowing assembly, so that the product is free from waste residue after laser cutting, the automatic waste removing is realized, and the product yield and the working efficiency are improved.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes made by using the contents of the present specification and the drawings, or applied directly or indirectly to the related technical fields, are included in the scope of the present invention.

Claims (9)

1. An automatic waste collecting mechanism is characterized by comprising a rack, and a carrier, a lifting suction table, a waste blowing assembly and a waste collecting device which are arranged on the rack, wherein a plurality of placing grooves for placing products are formed in the carrier, waste holes communicated with the bottoms of the placing grooves are formed in the placing grooves, the carrier is arranged at the top of the rack and is positioned right above the lifting suction table, the lifting suction table is provided with protruding parts which correspond to the waste holes one by one, the protruding parts are provided with air suction holes, the lifting suction table is arranged on the rack in a lifting manner, and the waste blowing assembly is used for blowing waste materials sucked by the lifting suction table to the waste collecting device; the lifting suction table is further provided with a positioning guide pillar, and the carrier is provided with a positioning hole matched with the positioning guide pillar.

2. The automatic waste collection mechanism of claim 1, further comprising a combined channel, wherein the combined channel comprises a first pipeline and a second pipeline which are correspondingly arranged, the first pipeline is connected with the waste collection device, and the second pipeline is connected with the waste blowing assembly.

3. The automatic waste collecting mechanism of claim 2, wherein a position avoiding notch is formed in the bottom of the first pipeline, and the position avoiding notch is matched with the shape of the top of the lifting suction table; and the rack is also provided with a transverse moving driving assembly connected with the first pipeline and used for driving the first pipeline to transversely move along the central axis direction.

4. The automated waste bin mechanism of claim 3, wherein the traverse drive assembly includes a traverse slide, and a traverse cylinder, the traverse cylinder being mounted to the frame and coupled to the traverse slide, the traverse slide being disposed on the traverse cylinder, the traverse slide being slidably mounted to the traverse slide, and the first conduit being mounted to the traverse slide.

5. The automatic waste collecting mechanism as claimed in claim 4, wherein the traverse cylinder is further provided with a contact switch, and the traverse slider is provided with a trigger for triggering the contact switch.

6. The automatic waste collecting mechanism as claimed in claim 3, wherein a sliding groove matched with the first pipeline is further provided on the top of the lifting suction table.

7. The automatic waste collecting mechanism as claimed in claim 2, wherein the waste blowing assembly comprises a mounting plate and a blowing pipe, the mounting plate is mounted on the frame, the second pipe is mounted on the mounting plate, one end of the blowing pipe is communicated with the second pipe, and the other end of the blowing pipe is connected with an external blowing device.

8. The automatic waste collecting mechanism of claim 1, wherein the lifting suction table comprises a lifting cylinder, a lifting slider, a lifting slide rail and a suction carrier; the lifting cylinder is arranged on the rack and connected with the lifting slide block, the lifting slide rail is arranged on the lifting cylinder, the lifting slide block is slidably arranged on the lifting slide rail and connected with the air suction carrier platform, and the bulge part is arranged at the top of the air suction carrier platform.

9. The automatic waste collection mechanism as claimed in claim 8, wherein the lifting cylinder is further provided with a limiting member for limiting the lifting slider.

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