CN218855869U - Integrated equipment with edge pressing, pressure riveting and laser etching functions - Google Patents

Abstract

The utility model discloses an integrated device with edge pressing, pressure riveting and laser etching functions, which comprises a machine body, an edge pressing mechanism, a pressure riveting mechanism, a first transfer mechanism and a laser etching mechanism; the edge pressing mechanism, the riveting mechanism and the laser etching mechanism are sequentially arranged on the machine body from right to left, the first transfer mechanism is used for transferring the workpiece at the riveting mechanism to the laser etching mechanism, and the first transfer mechanism is arranged on the rear sides of the riveting mechanism and the laser etching mechanism; so, through the integrated form design of each mechanism, make the work piece carry out the blank pressing operation at blank pressing mechanism after putting in and press riveting mechanism department and carry out the pressure riveting operation, utilize the setting of first transfer mechanism, with the work piece after will pressing the riveting transfer to radium carving mechanism department, thereby realize that the work piece carries out the blank pressing process in proper order on an equipment, the pressure riveting process, radium carving process, reduce the transfer time of work piece and workman's the amount of labour, the production efficiency of product has been improved, the steady quality of product is unanimous has been guaranteed, be favorable to the automated production of product, and wide application scope.

Description

Integrated equipment with edge pressing, pressure riveting and laser etching functions

Technical Field

The utility model belongs to the technical field of the panel processing technique and specifically relates to indicate an integrated form equipment that has the blank pressing concurrently, presses and rivets and radium carving.

Background

At present, the laser etching process is widely applied to the processing production of modern products, and the product can be more beautiful and have more humanized design by utilizing the laser etching process to carry out surface process treatment, such as plates, mobile phone shells and the like; when a plate is subjected to laser engraving process operation, firstly, a frame is assembled on the periphery of a workpiece, edge pressing operation is carried out on the frame to preassemble the frame on the workpiece, then, the workpiece after the edge pressing operation is placed on a riveting press to carry out riveting operation, after the riveting press is completed, the workpiece is placed in a laser engraving station of the laser engraving machine, and laser engraving is carried out on the surface of the workpiece through the laser engraving machine to obtain a product;

in the traditional technology, the blank pressing operation and the rivet pressing operation of the workpiece are both carried out in an artificial mode, the phenomenon that the blank pressing is uneven is easy to occur to the workpiece with the blank pressing manually, the efficiency is low, the rivet pressing operation carried out manually is realized by adopting an iron hammer to beat the rivet, the phenomenon that the height of the rivet is uneven is easy to occur to the workpiece, the quality of the finished workpiece can not be guaranteed, the operation is troublesome, the assembly is inconvenient, the production efficiency of the product is further reduced, the blank pressing operation, the rivet pressing operation and the laser engraving operation are all independent processes, each workpiece needs to be transferred and processed in three processes in sequence, the operation that the worker puts the product and takes the product is also complicated, the transfer time of the workpiece and the labor amount of the worker are increased, the production period is prolonged, the production efficiency is further reduced, and the application range is small.

Therefore, a new technical solution is needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model discloses to the disappearance that prior art exists, its main objective provides one kind and has the blank pressing concurrently, press the integrated form equipment of riveting and radium carving, its integrated form design through each mechanism to realize that the work piece carries out the blank pressing process in proper order on an equipment, press the riveting process, radium carving process, reduce the transfer time of work piece and workman's the amount of labour, improved the production efficiency of product, guaranteed the steady quality unanimity of product, be favorable to the automated production of product, application scope is wide.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an integrated device with edge pressing, pressure riveting and laser etching functions comprises an organism, an edge pressing mechanism, a pressure riveting mechanism, a first transfer mechanism and a laser etching mechanism; wherein: the edge pressing mechanism, the pressure riveting mechanism and the laser etching mechanism are sequentially arranged on the machine body from right to left, the first transfer mechanism is used for transferring a workpiece at the pressure riveting mechanism to the laser etching mechanism, and the first transfer mechanism is arranged on the rear side of the pressure riveting mechanism and the laser etching mechanism.

As a preferred scheme, the edge pressing mechanism includes a first upper die holder, a first lower die holder and a first driving device, the machine body is provided with an access opening and an edge pressing area, the first upper die holder and the first lower die holder are both arranged in the edge pressing area, the first driving device is arranged at the upper end of the machine body and is in driving connection with the first upper die holder, the first upper die holder moves towards the first lower die holder along with the control of the first driving device, and the access opening is arranged at the front end of the machine body.

As a preferred scheme, get and put a mouthful department and be provided with first safe grating, first safe grating is provided with two and left and right sides and arranges the left and right ends in the front side of getting and putting the mouth.

As a preferred scheme, the press riveting mechanism comprises a second upper die holder, a second lower die holder and a second driving device, a press riveting area with an opening at the front side and an opening at the left side is arranged on the machine body, the laser etching mechanism is positioned at the left side of the opening at the left side, the second upper die holder and the second lower die holder are both arranged in the press riveting area, the second driving device is arranged at the upper end of the machine body and is in driving connection with the second upper die holder, and the second upper die holder moves towards the second lower die holder along with the control of the second driving device;

the first transfer mechanism comprises a first material taking head, a third driving device used for controlling the first material taking head to move back and forth, a fourth driving device used for controlling the first material taking head to move up and down and a fifth driving device used for controlling the first material taking head to move left and right, and the first material taking head moves back and forth in the riveting area and the laser engraving mechanism along with the control of the third driving device, the fourth driving device and the fifth driving device.

As a preferred scheme, the front side is opened and is provided with second safety grating, the second safety grating is provided with two and arranges the left and right ends of the front side opening in a left-right mode.

As a preferred scheme, the fifth driving device is connected with a first moving seat, the first stub bar, the third driving device and the fourth driving device are all arranged on the first moving seat, a first guide rail is arranged on the machine body, the first guide rail extends leftwards and rightwards, the right end of the first guide rail extends into the riveting area, the left end of the first guide rail is exposed at the left section of the upper end of the machine body, the first moving seat is arranged on the first guide rail, and the first moving seat reciprocates leftwards and rightwards on the first guide rail along with the control of the fifth driving device.

As a preferable scheme, the laser etching device further comprises a second transfer mechanism, the second transfer mechanism is used for transferring the workpiece subjected to laser etching operation to the next working procedure, the second transfer mechanism is arranged on the left side of the laser etching mechanism, and the second transfer mechanism comprises a second material taking head, a sixth driving device used for controlling the second material taking head to move up and down, a rotating device used for controlling the second material taking head to rotate, and a seventh driving device used for controlling the second material taking head to move back and forth.

Compared with the prior art, the utility model has obvious advantage and beneficial effect, particularly, can know by above-mentioned technical scheme, it is mainly through the integrated form design of each mechanism, make the work piece put in after blank pressing mechanism carries out blank pressing operation in the rivet pressing mechanism again and press the riveting operation, utilize the setting of first transfer mechanism, in order to transfer the work piece after the rivet pressing to radium carving mechanism department, thereby realize that the work piece carries out blank pressing process, rivet pressing process, radium carving process on a equipment in proper order, structural design is ingenious reasonable, reduce the transfer time of work piece and the amount of labour of workman, the production efficiency of product has been improved, reduce the cost of labor, the steady unanimity of quality of product has been guaranteed, be favorable to the automated production of product, application scope is wide;

and the arrangement of the first moving seat and the first guide rail is favorable for the reciprocating displacement operation of the first transfer mechanism between the pressure riveting mechanism and the laser etching mechanism, the use is stable, and meanwhile, the arrangement of the second transfer mechanism is favorable for transferring a finished product after a laser etching process to the next process through the second transfer mechanism, so that the labor capacity of workers is further reduced, the automatic production of the product is realized, and the usability is good.

To illustrate the structural features and functions of the present invention more clearly, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is a perspective view of an embodiment of the present invention;

fig. 2 is a perspective view of another angle of the embodiment of the present invention;

FIG. 3 is a front view of an embodiment of the present invention;

fig. 4 is a partially enlarged schematic view of fig. 3.

The attached drawings indicate the following:

10. body 11, access port

111. First safety grating 12, blank pressing area

13. Front side open 131 and second safety grating

14. Left side open 15, press riveting area

16. First guide rail 17, second guide rail

171. Second movable seat 20 and edge pressing mechanism

21. A first upper die holder 22 and a first lower die holder

23. First drive arrangement 30, rivet pressing mechanism

31. A second upper die holder 32 and a second lower die holder

33. Second drive device 40 and first transfer mechanism

41. First material taking head 42 and third driving device

43. Fourth drive device 44 and fifth drive device

45. First movable seat 50 and laser etching mechanism

60. Second transfer mechanism 61 and second material taking head

62. Sixth driving device 63 and rotating device

631. A connecting arm 64, a seventh drive.

Detailed Description

Fig. 1 to 4 show a specific structure of an embodiment of the present invention.

An integrated device with edge pressing, riveting and laser etching functions comprises an organism 10, an edge pressing mechanism 20, a riveting mechanism 30, a first conveying mechanism 40 and a laser etching mechanism 50; wherein:

the edge pressing mechanism 20, the riveting mechanism 30 and the laser engraving mechanism 50 are sequentially arranged on the machine body 10 from right to left, the edge pressing mechanism 20 comprises a first upper die holder 21, a first lower die holder 22 and a first driving device 23, a taking and placing opening 11 and an edge pressing area 12 are arranged on the machine body 10, the first upper die holder 21 and the first lower die holder 22 are both arranged in the edge pressing area 12, the first driving device 23 is arranged at the upper end of the machine body 10 and is in driving connection with the first upper die holder 21, the first upper die holder 21 moves towards the first lower die holder 22 along with the control of the first driving device 23, and the taking and placing opening 11 is arranged at the front end of the machine body 10;

the press riveting mechanism 30 comprises a second upper die holder 31, a second lower die holder 32 and a second driving device 33, a press riveting area 15 with a front opening 13 and a left opening 14 is arranged on the machine body 10, the laser engraving mechanism 50 is located on the left side of the left opening 14, the second upper die holder 31 and the second lower die holder 32 are both arranged in the press riveting area 15, the second driving device 33 is arranged at the upper end of the machine body 10 and is in driving connection with the second upper die holder 31, and the second upper die holder 31 moves towards the second lower die holder 32 along with the control of the second driving device 33;

the first transfer mechanism 40 is used for transferring the workpiece at the riveting mechanism 30 to the laser engraving mechanism 50, the first transfer mechanism 40 is arranged at the rear sides of the riveting mechanism 30 and the laser engraving mechanism 50, the first transfer mechanism 40 comprises a first material taking head 41, a third driving device 42 used for controlling the first material taking head to move back and forth, a fourth driving device 43 used for controlling the first material taking head to move up and down and a fifth driving device 44 used for controlling the first material taking head to move left and right, and the first material taking head 41 moves back and forth at the riveting area 15 and the laser engraving mechanism 50 along with the control of the third driving device, the fourth driving device and the fifth driving device; in actual use, two workers can be respectively arranged at the edge pressing mechanism 20 and the pressure riveting mechanism 30 to realize feeding of the edge pressing mechanism 20 and feeding of the pressure riveting mechanism, or the manipulator is respectively arranged at the edge pressing mechanism 20 and the pressure riveting mechanism 30 to realize automatic feeding and feeding of workpieces; so, integrated form design through each mechanism, make the work piece carry on the blank pressing mechanism again after the blank pressing operation in the blank pressing mechanism and place in and press riveting mechanism department and press riveting operation, utilize the setting of first transfer mechanism, with the work piece after will pressing riveting transfer to radium carving mechanism department, thereby realize that the work piece carries out the blank pressing process in proper order on a equipment, press riveting process, radium carving process, structural design is ingenious reasonable, reduce the transfer time of work piece and workman's the amount of labour, the production efficiency of product has been improved, the cost of labor is reduced, the steady consistency of quality of product has been guaranteed, be favorable to the automated production of product, wide application scope.

Preferably, the first upper die holder 21 is detachably connected to the first driving device 23, the first lower die holder 22 is detachably arranged on the edge pressing area 12, the second upper die holder 31 is detachably connected to the second driving device 33, and the second lower die holder 32 is detachably arranged on the press riveting area 15, so that the edge pressing, press riveting and laser engraving processes beside different types are facilitated by replacing the corresponding upper die holder and lower die holder.

Also, get and put a mouthful 11 department and be provided with first safety grating 111, first safety grating 111 is provided with two and control the left and right ends of arranging in the front side of getting and putting mouthful 11, the open 13 in front side is provided with second safety grating 131, second safety grating 131 is provided with two and control the left and right ends of arranging in the open 13 in front side of the left and right ends.

The fifth driving device 44 is connected with a first moving seat 45, the first material taking head 41, the third driving device 42 and the fourth driving device 43 are all arranged on the first moving seat 45, the machine body 10 is provided with a first guide rail 16, the first guide rail 16 extends left and right, the right end of the first guide rail 16 extends into the press riveting area 15, the left end of the first guide rail 16 is exposed at the left section of the upper end of the machine body 10, the first moving seat 45 is arranged on the first guide rail 16, and the first moving seat 15 reciprocates left and right on the first guide rail 16 under the control of the fifth driving device 44; so, the setting of first removal seat and first guide rail is favorable to first transfer mechanism in the pressure to rivet the reciprocating displacement operation between mechanism, radium carving mechanism, and is stable in utilization.

The laser engraving machine further comprises a second transfer mechanism 60, the second transfer mechanism 60 is used for transferring a workpiece subjected to laser engraving operation to the next working procedure, the second transfer mechanism 60 is arranged on the left side of the laser engraving mechanism 50, and the second transfer mechanism 60 comprises a second material taking head 61, a sixth driving device 62 used for controlling the second material taking head to move up and down, a rotating device 63 used for controlling the second material taking head to rotate and a seventh driving device 64 used for controlling the second material taking head to move back and forth; preferably, the machine body 10 is provided with a second guide rail 17 extending back and forth, the second guide rail 17 is provided with a second movable base 171, the rotating device 63 is arranged on the second movable base 171, the seventh driving device 64 is connected to the second movable base 171 in a driving manner, the rotating device 63 is connected with a connecting arm 631, and the sixth driving device 62 is arranged on the connecting arm 631; therefore, the second transfer mechanism is favorable for transferring the finished product subjected to the laser etching process to the next process through the second transfer mechanism, the labor amount of workers is further reduced, automatic production of the product is realized, and the usability is good.

The utility model is mainly designed in an integrated mode through each mechanism, so that a workpiece is placed at a riveting mechanism for riveting after a blank pressing mechanism carries out blank pressing operation, the first transfer mechanism is arranged to transfer the workpiece subjected to riveting to a laser engraving mechanism, thereby realizing that the workpiece carries out blank pressing, riveting and laser engraving processes on one device in sequence, the structure design is ingenious and reasonable, the transfer time of the workpiece and the labor amount of workers are reduced, the production efficiency of products is improved, the labor cost is reduced, the stable and consistent quality of the products is ensured, the automatic production of the products is facilitated, and the application range is wide;

and the arrangement of the first moving seat and the first guide rail is beneficial to the reciprocating displacement operation of the first transfer mechanism between the riveting mechanism and the laser etching mechanism, the use is stable, meanwhile, the arrangement of the second transfer mechanism is beneficial to the transfer of a finished product after the laser etching process to the next process through the second transfer mechanism, the labor amount of workers is further reduced, the automatic production of the product is realized, and the usability is good.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modification, equivalent change and modification made to the above embodiments according to the technical spirit of the present invention are all within the scope of the technical solution of the present invention.

Claims (7)

1. The utility model provides a have integrated form equipment of blank pressing, pressure riveting and radium carving concurrently, its characterized in that: comprises a machine body, a blank pressing mechanism, a rivet pressing mechanism, a first transfer mechanism and a laser etching mechanism; wherein: the edge pressing mechanism, the pressure riveting mechanism and the laser etching mechanism are sequentially arranged on the machine body from right to left, the first transfer mechanism is used for transferring a workpiece at the pressure riveting mechanism to the laser etching mechanism, and the first transfer mechanism is arranged at the rear side of the pressure riveting mechanism and the laser etching mechanism.

2. The integrated equipment with the functions of edge pressing, riveting and laser etching as claimed in claim 1, which is characterized in that: the blank pressing mechanism comprises a first upper die base, a first lower die base and a first driving device, a taking and placing opening and a blank pressing area are formed in the machine body, the first upper die base and the first lower die base are arranged in the blank pressing area, the first driving device is arranged at the upper end of the machine body and is in driving connection with the first upper die base, the first upper die base moves towards the first lower die base along with the control of the first driving device, and the taking and placing opening is formed in the front end of the machine body.

3. The integrated equipment with the functions of edge pressing, rivet pressing and laser etching as claimed in claim 2, wherein: get and put a mouthful department and be provided with first safe grating, first safe grating is provided with two and controls and arrange in the left and right ends of front side of getting the material mouthful.

4. The integrated equipment with the functions of edge pressing, riveting and laser etching as claimed in claim 1, which is characterized in that: the riveting mechanism comprises a second upper die holder, a second lower die holder and a second driving device, a riveting area with an opening at the front side and an opening at the left side is arranged on the machine body, the laser engraving mechanism is positioned at the left side of the opening at the left side, the second upper die holder and the second lower die holder are both arranged in the riveting area, the second driving device is arranged at the upper end of the machine body and is in driving connection with the second upper die holder, and the second upper die holder moves towards the second lower die holder along with the control of the second driving device;

the first transfer mechanism comprises a first material taking head, a third driving device used for controlling the first material taking head to move back and forth, a fourth driving device used for controlling the first material taking head to move up and down and a fifth driving device used for controlling the first material taking head to move left and right, and the first material taking head moves back and forth in the riveting area and the laser engraving mechanism along with the control of the third driving device, the fourth driving device and the fifth driving device.

5. The integrated equipment with the functions of edge pressing, riveting and laser etching as claimed in claim 4, wherein: the open front side is provided with the safe grating of second, the safe grating of second is provided with two and control and arranges the end about the open front side of front side.

6. The integrated equipment with the functions of edge pressing, riveting and laser etching as claimed in claim 4, wherein: the fifth driving device is connected with a first moving seat, the first stub bar, the third driving device and the fourth driving device are all arranged on the first moving seat, a first guide rail is arranged on the machine body and extends leftwards and rightwards, the right end of the first guide rail extends into the press riveting area, the left end of the first guide rail is exposed in the left end section of the machine body, the first moving seat is arranged on the first guide rail, and the first moving seat moves leftwards and rightwards along with the control of the fifth driving device in a reciprocating mode on the first guide rail.

7. The integrated equipment with the functions of edge pressing, rivet pressing and laser etching as claimed in claim 1, wherein: the laser engraving machine further comprises a second transfer mechanism, the second transfer mechanism is used for transferring a workpiece subjected to laser engraving operation to the next working procedure, the second transfer mechanism is arranged on the left side of the laser engraving mechanism, and the second transfer mechanism comprises a second material taking head, a sixth driving device used for controlling the second material taking head to move up and down, a rotating device used for controlling the second material taking head to rotate, and a seventh driving device used for controlling the second material taking head to move back and forth.

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