CN116060849B

CN116060849B - Screen plate welding assembly

Info

Publication number: CN116060849B
Application number: CN202310263035.3A
Authority: CN
Inventors: 曹作林; 向纯斌; 罗贤; 易贤; 王成钢; 韦选豪
Original assignee: Honorfaith Furniture Co Ltd
Current assignee: Honorfaith Furniture Co Ltd
Priority date: 2023-03-17
Filing date: 2023-03-17
Publication date: 2023-07-04
Anticipated expiration: 2043-03-17
Also published as: CN116060849A

Abstract

The invention discloses a screen plate welding assembly, which is characterized in that a conveying mechanism is used for sequentially conveying screen plates among a distributing device, a pressing device, a welding device and a material placing device, the distributing device is used for separating the screen plates stacked in a material storage container one by one through a distributor and placing the screen plates on the conveying mechanism, a pressing part and a bottom plate are used for flattening and shaping the screen plates on the conveying mechanism, the welding device is used for welding and reinforcing the side edges of the screen plates through a welding head, and finally the conveying mechanism is used for placing the welded screen plates on the material placing platform, so that automatic processing of the screen plates is realized.

Description

Screen plate welding assembly

Technical Field

The invention relates to the technical field of screen plate processing, in particular to a screen plate welding assembly.

Background

The household basket is usually composed of a bottom screen plate and a side wall arranged on the screen plate in a surrounding mode, and the bottom screen plate and the side wall are fixedly connected through welding. Before the screen plate is welded and connected with the side wall, the screen plate is required to be processed through working procedures such as leveling, shaping, welding, reinforcing and the like, and the screen plate is processed through manpower at present, so that the labor is consumed relatively.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide a screen plate welding assembly so as to solve the problem that the processing efficiency of the screen plate is low due to the fact that the screen plate is subjected to leveling, shaping and welding manually at present.

The invention adopts the following technical scheme:

a screen plate welding assembly comprises a frame, a conveying mechanism, a distributing device, a pressing device, a welding device and a material placing device, wherein the distributing device, the pressing device, the welding device and the material placing device are sequentially arranged; the material distributing device comprises a material storage container fixedly arranged on the frame and a material distributor movably connected with the frame, wherein the material distributor and the material storage container are adjacently arranged, and the material distributor is used for releasing the net plates in the material storage container to the conveying mechanism one by one; the pressing device comprises a bottom plate horizontally arranged on the frame, a pressing guide rail vertically arranged on the frame and a pressing part slidably connected with the pressing guide rail, wherein the pressing part and the bottom plate are oppositely arranged, and the movement track of the screen plate on the conveying mechanism passes through a space between the pressing part and the bottom plate; the welding device is arranged on the side edge of the frame, a welding head is arranged on the welding device, and the movement track of the side edge of the screen plate on the conveying mechanism passes through the welding head; the material placing device is provided with a horizontally arranged material placing platform, the material placing platform is fixedly arranged on the frame, and the conveying mechanism places the welded screen plate on the material placing platform.

In some optional embodiments, the material storage container is hollow and two ends are communicated, the distributor is located at an opening at the lower side of the material storage container, the distributor is rotatably connected to the frame, the rotation axes of the distributor and the frame are vertically arranged, a material blocking block and a material distributing block are arranged on the side edge of the distributor, the material blocking block and the material distributing block are arranged in a staggered manner in the direction of the rotation axis, and the material blocking block and the material distributing block are arranged in a staggered manner in the circumferential direction of the distributor.

In some optional embodiments, the pressing component is provided with a clamping guide rail which is horizontally arranged, clamping blocks are movably connected to the clamping guide rail in a matched manner, the number of the clamping blocks is at least two, at least one clamping block is located on one side of the pressing component, at least one clamping block is located on the other side of the pressing component, and the two clamping blocks can move in opposite directions or move in opposite directions.

In some optional embodiments, the conveying mechanism includes a first guide rail, a first sliding table and a first lifting cylinder, the first guide rail is disposed on the frame, the first guide rail is located between the material distributing device and the material pressing device, the first sliding table is slidably connected to the first guide rail, and the first lifting cylinder is vertically disposed on the first sliding table.

In some optional embodiments, the conveying mechanism includes a second guide rail, a second sliding table and a second lifting cylinder, the second guide rail is arranged on the frame, the second guide rail is located between the material pressing device and the welding device, the second sliding table is slidably connected to the second guide rail, and the second lifting cylinder is vertically arranged on the second sliding table.

In some optional embodiments, the conveying mechanism further comprises a lifting table, a lifting guide rail is vertically arranged on the second sliding table, the lifting table is slidably connected with the lifting guide rail, and two ends of the second lifting cylinder are respectively connected with the second sliding table and the lifting table; the lifting table is provided with a clamping device, the clamping device comprises two clamping pieces which are oppositely arranged, and the clamping pieces are slidably connected with the lifting table.

In some optional embodiments, the conveying mechanism includes a third guide rail, a third sliding table and a third lifting cylinder, the third guide rail is disposed on the frame, the third guide rail is located between the welding device and the material placing device, the third sliding table is slidably connected to the third guide rail, and the third lifting cylinder is vertically disposed on the third sliding table.

In some alternative embodiments, the clamping blocks are provided with notches, and the notches on the two opposite clamping blocks are arranged oppositely.

In some optional embodiments, a material moving cylinder which is arranged vertically below the material storage container is arranged on the rack, a piston of the material moving cylinder is connected with an electromagnet, and a motion track of the electromagnet passes through an opening below the material storage container.

In some alternative embodiments, the conveying mechanism comprises a horizontally arranged traversing cylinder, and two ends of the traversing cylinder are respectively connected to the frame and the first sliding table.

Compared with the prior art, the invention has the beneficial effects that:

the conveying mechanism is used for sequentially conveying the mesh plates among the distributing device, the pressing device, the welding device and the material placing device, the distributing device separates the mesh plates stacked in the material storage container one by one through the distributing device and places the mesh plates on the conveying mechanism, the pressing part and the bottom plate level and shape the mesh plates on the conveying mechanism, the welding device welds and reinforces the side edges of the mesh plates through the welding head, and finally the conveying mechanism places the welded mesh plates on the material placing platform, so that automatic processing of the mesh plates is realized.

Drawings

FIG. 1 is a schematic view of the overall structure of an inventive screen welding assembly;

FIG. 2 is a schematic structural view of a distributing device of the screen welding assembly of the invention;

FIG. 3 is a second schematic diagram of the overall structure of the screen welding assembly of the present invention;

FIG. 4 is an enlarged schematic view of FIG. 3 at A;

FIG. 5 is a schematic structural view of a press device of the screen welding assembly of the invention;

FIG. 6 is a schematic view of a partial structure of a conveying mechanism of the screen welding assembly of the invention;

FIG. 7 is a second partial schematic view of the transport mechanism of the screen welding assembly of the present invention;

FIG. 8 is an enlarged schematic view at B in FIG. 2;

in the figure: 10. a frame; 20. a conveying mechanism; 21. a first guide rail; 22. a second guide rail; 23. a third guide rail; 24. a first sliding table; 241. a first lifting cylinder; 25. a second sliding table; 251. a second lifting cylinder; 252. a lifting table; 253. a clamping device; 26. a third sliding table; 261. a third lifting cylinder; 27. a traversing cylinder; 30. a material distributing device; 31. a storage container; 32. a distributor; 321. a material blocking block; 322. a distributor block; 33. a material moving cylinder; 40. a pressing device; 41. a pressing guide rail; 42. a pressing member; 421. clamping the guide rail; 422. a clamping block; 50. a welding device; 51. a welding head; 60. a material placing device; 61. and a material placing platform.

Description of the embodiments

In order that the invention may be readily understood, a more complete description of the invention will be rendered by reference to the appended drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 to 8, a screen welding assembly of the present invention is schematically shown, and includes a frame 10, a conveying mechanism 20, and a distributing device 30, a pressing device 40, a welding device 50, and a placing device 60, which are sequentially disposed.

The material distributing device 30 comprises a material storage container 31 fixedly arranged on the frame 10 and a material distributing device 32 movably connected to the frame 10, wherein the material distributing device 32 and the material storage container 31 are adjacently arranged, and the material distributing device 32 is used for releasing the mesh plates in the material storage container 31 to the conveying mechanism 20 one by one so that the conveying mechanism 20 can convey the mesh plates to the material pressing device 40 one by one. The pressing device 40 comprises a bottom plate horizontally arranged on the frame 10, a pressing guide rail 41 vertically arranged on the frame 10 and a pressing component 42 slidably connected to the pressing guide rail 41, the pressing component 42 and the bottom plate are oppositely arranged, the movement track of the screen plate on the conveying mechanism 20 passes through the space between the pressing component 42 and the bottom plate, and the pressing component 42 can slide along the pressing guide rail 41 and move towards the bottom plate, so that the screen plate between the pressing component 42 and the bottom plate is pressed and flattened. The pressed mesh plate is conveyed to a welding device 50 by a conveying mechanism 20, the welding device 50 is arranged on the side edge of the frame 10, a welding head 51 is arranged on the welding device 50, the movement track of the side edge of the mesh plate on the conveying mechanism 20 passes through the welding head 51, and the welding head 51 welds and reinforces the side edge of the mesh plate. The material placing device 60 is provided with a horizontally arranged material placing platform 61, the material placing platform 61 is fixedly arranged on the frame 10, and the conveying mechanism 20 places the welded screen plate on the material placing platform 61, so that automatic processing of the screen plate is realized.

Specifically, referring to fig. 2, the storage container 31 is hollow and has two ends penetrating, the distributor 32 is located at the lower opening of the storage container 31, and the distributor 32 is rotatably connected to the frame 10 and has a rotation axis vertically disposed. The side of the distributor 32 is provided with a baffle block 321 and a distributor block 322, as shown in fig. 8, the baffle block 321 and the distributor block 322 are arranged in a staggered manner in the direction of the rotation axis, and the baffle block 321 and the distributor block 322 are arranged in a staggered manner in the circumferential direction of the distributor 32. When a plurality of mesh plates are placed in the storage container 31, the mesh plates are stacked, the baffle block 321 is located inside the storage container 31 and prevents the lowermost mesh plate from falling from the lower opening of the storage container 31, the distributor 32 is driven to rotate forward by an automatic actuator (such as a motor, an air cylinder, a hydraulic cylinder and the like), the distributor 322 gradually enters the lower opening of the storage container 31, the distributor 322 cuts in between the lowermost mesh plate and the penultimate mesh plate (the penultimate mesh plate is located above the lowermost mesh plate), the baffle block 321 gradually moves to the outside of the storage container 31 along with the continuous forward rotation of the distributor 32, and the lowermost mesh plate is separated from the penultimate mesh plate and falls freely under the condition of lack of the baffle block 321. At this time, the distributor 32 is driven to reversely rotate, the baffle block 321 gradually enters the opening below the storage container 31, meanwhile, the distributor block 322 moves to the outside of the storage container 31, and the penultimate net plate abutting above the distributor block 322 freely falls onto the baffle block 321 under the condition of lacking the blocking of the distributor block 322. Thereby, the switching distributor 32 is driven to rotate forward and reverse to release the net plates one by one. Preferably, a material moving cylinder 33 is arranged below the material storage container 31 and is vertically arranged on the frame 10, a piston of the material moving cylinder 33 is connected with an electromagnet, a motion track of the electromagnet penetrates through an opening below the material storage container 31, when the material moving cylinder 33 stretches, the electromagnet rises to the opening below the material storage container 31, the electromagnet is electrified and generates magnetic force to adsorb the mesh plate, the material moving cylinder 33 contracts to enable the electromagnet and the mesh plate to descend, and the mesh plate descends to the conveying mechanism 20 to convey the mesh plate.

As shown in fig. 5, the pressing member 42 is provided with a horizontally arranged clamping rail 421, the clamping rail 421 is movably connected with clamping blocks 422 in a matched manner, at least two clamping blocks 422 are arranged in number, at least one clamping block 422 is located on one side of the pressing member 42, at least one clamping block 422 is located on the other side of the pressing member 42, so that the two clamping blocks 422 can move oppositely or move oppositely, further, the screen plate material is clamped, and displacement of the screen plate during pressing and shaping is prevented. Preferably, the clamping blocks 422 are provided with notches, the notches on the two clamping blocks 422 which are oppositely arranged, and the notches can be embedded with the side edges of the screen plate.

As shown in fig. 6 and 7, the conveying mechanism 20 includes a traversing cylinder 27, a first guide rail 21, a first sliding table 24 and a first lifting cylinder 241, the first guide rail 21 is disposed on the frame 10, the first guide rail 21 is located between the material distributing device 30 and the material pressing device 40, the first sliding table 24 is slidably connected to the first guide rail 21, the first lifting cylinder 241 is vertically disposed on the first sliding table 24, two ends of the traversing cylinder 27 are respectively connected to the frame 10 and the first sliding table 24, the traversing cylinder 27 can drive the first sliding table 24 to reciprocate on the first guide rail 21 through telescopic movement, and the maximum extension point and the minimum contraction point of the traversing cylinder 27 are fixed, so that the reciprocating stroke of the traversing cylinder 27 is also fixed, and thus, the position of the first sliding table 24 on the first guide rail 21 can be accurately controlled, that is, the first sliding table 24 only needs to accurately stop at two stop positions on the first guide rail 21, and thus the accurate transfer of materials between the two stop positions can be satisfied. The first lifting cylinder 241 is used for jacking up the screen plate so as to support and convey the screen plate. The arrangement of the first guide rail 21 and the first sliding table 24 realizes the mesh plate conveying between the material distributing device 30 and the material pressing device 40.

Further, the conveying mechanism 20 includes a second guide rail 22, a second sliding table 25 and a second lifting cylinder 251, the second guide rail 22 is disposed on the frame 10, the second guide rail 22 is located between the material pressing device 40 and the welding device 50, the second sliding table 25 is slidably connected to the second guide rail 22, the second lifting cylinder 251 is vertically disposed on the second sliding table 25, and the second guide rail 22 and the second sliding table 25 are disposed, so that the mesh plate transportation between the material pressing device 40 and the welding device 50 is realized. The conveying mechanism 20 further comprises a lifting platform 252, a lifting guide rail is vertically arranged on the second sliding table 25, the lifting platform 252 is slidably connected to the lifting guide rail, and two ends of the second lifting cylinder 251 are respectively connected to the second sliding table 25 and the lifting platform 252; the lifting platform 252 is provided with a clamping device 253, the clamping device 253 comprises two clamping pieces which are oppositely arranged, the clamping pieces are slidably connected to the lifting platform 252, and the clamping device 253 is used for clamping the screen plate so that the screen plate can be fixed by the clamping device 253 when the welding head 51 welds the side edge of the screen plate.

In order to convey the mesh plate between the welding device 50 and the material placing device 60, the conveying mechanism 20 comprises a third guide rail 23, a third sliding table 26 and a third lifting cylinder 261, wherein the third guide rail 23 is arranged on the frame 10, the third guide rail 23 is positioned between the welding device 50 and the material placing device 60, the third sliding table 26 is slidably connected to the third guide rail 23, and the third lifting cylinder 261 is vertically arranged on the third sliding table 26. The third lifting cylinder 261 is used to jack up and lift up the net plate. The third sliding table 26 is connected with the first sliding table 24 through a transmission rod, so that the first sliding table 24 synchronously drives the third sliding table 26 to move, namely, a single transverse moving cylinder 27 drives the first sliding table 24 and the third sliding table 26, and the driving structure of the whole screen welding assembly is simplified.

In summary, the conveying mechanism 20 is configured to sequentially convey the mesh plates between the distributing device 30, the pressing device 40, the welding device 50 and the material placing device 60, the distributing device 30 separates the mesh plates stacked in the material storage container 31 one by one through the distributing device 32 and places the mesh plates on the conveying mechanism 20, the pressing component 42 and the bottom plate level and shape the mesh plates on the conveying mechanism 20, the welding device 50 welds and consolidates the side edges of the mesh plates through the welding head 51, and finally the conveying mechanism 20 places the welded mesh plates on the material placing platform 61, thereby realizing automatic processing of the mesh plates.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present invention.

Claims

1. The screen plate welding assembly is characterized by comprising a frame, a conveying mechanism, a distributing device, a pressing device, a welding device and a material placing device which are sequentially arranged; the material distributing device comprises a material storage container fixedly arranged on the frame and a material distributor movably connected with the frame, wherein the material distributor and the material storage container are adjacently arranged, and the material distributor is used for releasing the net plates in the material storage container to the conveying mechanism one by one; the pressing device comprises a bottom plate horizontally arranged on the frame, a pressing guide rail vertically arranged on the frame and a pressing part slidably connected with the pressing guide rail, wherein the pressing part and the bottom plate are oppositely arranged, and the movement track of the screen plate on the conveying mechanism passes through a space between the pressing part and the bottom plate; the welding device is arranged on the side edge of the frame, a welding head is arranged on the welding device, and the movement track of the side edge of the screen plate on the conveying mechanism passes through the welding head; the material placing device is provided with a horizontally arranged material placing platform, the material placing platform is fixedly arranged on the frame, and the conveying mechanism places the welded screen plate on the material placing platform;

the material storage container is hollow, two ends of the material storage container are communicated, the distributor is positioned at an opening at the lower part of the material storage container, the distributor is rotatably connected to the frame, the rotation axes of the distributor and the frame are vertically arranged, a material blocking block and a material distributing block are arranged on the side edge of the distributor, the material blocking block and the material distributing block are arranged in a staggered manner in the direction of the rotation axis, and the material blocking block and the material distributing block are arranged in a staggered manner in the circumferential direction of the distributor;

the pressing part is provided with a clamping guide rail which is horizontally arranged, clamping blocks are movably matched and connected to the clamping guide rail, the number of the clamping blocks is at least two, at least one clamping block is positioned on one side of the pressing part, and at least one clamping block is positioned on the other side of the pressing part, so that the two clamping blocks can move oppositely or move back to back;

the conveying mechanism comprises a first guide rail, a first sliding table and a first lifting cylinder, the first guide rail is arranged on the frame, the first guide rail is positioned between the material distributing device and the material pressing device, the first sliding table is slidably connected to the first guide rail, and the first lifting cylinder is vertically arranged on the first sliding table;

the automatic feeding device is characterized in that a material moving cylinder which is arranged below the material storage container and is vertically arranged is arranged on the frame, a piston of the material moving cylinder is connected with an electromagnet, and a motion track of the electromagnet penetrates through an opening below the material storage container.

2. The screen plate welding assembly of claim 1 wherein the conveying mechanism comprises a second guide rail, a second sliding table and a second lifting cylinder, the second guide rail is arranged on the frame, the second guide rail is positioned between the material pressing device and the welding device, the second sliding table is slidably connected to the second guide rail, and the second lifting cylinder is vertically arranged on the second sliding table.

3. The screen welding assembly of claim 2, wherein the conveying mechanism further comprises a lifting platform, a lifting guide rail is vertically arranged on the second sliding table, the lifting platform is slidably connected to the lifting guide rail, and two ends of the second lifting cylinder are respectively connected to the second sliding table and the lifting platform; the lifting table is provided with a clamping device, the clamping device comprises two clamping pieces which are oppositely arranged, and the clamping pieces are slidably connected with the lifting table.

4. The screen plate welding assembly of claim 2 wherein the conveying mechanism comprises a third guide rail, a third sliding table and a third lifting cylinder, the third guide rail is arranged on the frame, the third guide rail is positioned between the welding device and the material placing device, the third sliding table is slidably connected to the third guide rail, and the third lifting cylinder is vertically arranged on the third sliding table.

5. The screen welding assembly of claim 1, wherein the clamping blocks are provided with notches, and the notches on the two opposite clamping blocks are arranged opposite to each other.

6. The screen welding assembly of claim 1, wherein the conveying mechanism comprises a horizontally arranged traversing cylinder, and two ends of the traversing cylinder are respectively connected to the frame and the first slipway.