CN111403216A

CN111403216A - Automatic assembling machine for scissor legs

Info

Publication number: CN111403216A
Application number: CN202010280923.2A
Authority: CN
Inventors: 郭风华
Original assignee: Kunshan Huada United Electronic Equipment Co ltd
Current assignee: Kunshan Huada United Electronic Equipment Co ltd
Priority date: 2020-04-10
Filing date: 2020-04-10
Publication date: 2020-07-10

Abstract

The invention discloses an automatic assembling machine for scissor feet, which comprises a workbench, an upper die, a material cutting mechanism and a lower die, wherein the upper die can move horizontally and vertically; the lower die is arranged at the rear part of the workbench; the upper die and the blanking mechanism are integrally arranged and can synchronously horizontally move back and forth; the upper die can vertically lift; the cutting mechanism is positioned right above the upper die and comprises a plate body and a cutter combination vertically arranged on the lower surface of the plate body, the cutter combination penetrates through the lower surface of the upper die, and the cutting mechanism is vertically lifted; the lower die is used for placing the accessory unit in advance; the accessory unit comprises regularly arranged inner scissors and outer scissors which are connected by a stub bar; the material cutting and the inner shearing grabbing are synchronously carried out through the matching action of the upper die and the material cutting mechanism; then the assembly of the inner scissors and the outer scissors is realized; the invention has simpler structure and higher production efficiency.

Description

Automatic assembling machine for scissor legs

Technical Field

The invention relates to an improvement of assembling equipment for scissor feet for a keyboard, in particular to an automatic scissor foot assembling machine which is simpler in structure and higher in production efficiency.

Background

The scissors feet are necessary components of the keyboard and generally consist of an inner scissors and an outer scissors; all be equipped with the pivot on the front and back both sides outer wall of interior scissors, be equipped with respectively on the front and back inside wall of outer scissors and correspond joint complex shaft hole with two pivots, the pivot free end has one towards one side in shaft hole and has a face of wedging of being cut off, the shaft hole concrete shape is that a transversal circular-arc slot and the coaxial intercommunication of a circular blind hole of personally submitting form, insert again in the circular blind hole behind the slot in the pivot axial, when the pivot on the outer wall of both sides inserts the joint in the shaft hole on the inside wall around outer scissors correspondingly respectively around the interior scissors, the scissors foot assembly finishes, it is great to see its equipment degree of difficulty from this.

In chinese application No. CN109920681A, it discloses an automatic assembling device for scissors, comprising a lower die capable of moving horizontally, an upper die capable of moving horizontally and vertically, a cutting mechanism capable of moving vertically, and a stripping mechanism; the lower die is used for placing the inner shears and the outer shears in advance and grabbing the inner shears from the lower die by the upper die to start assembling, and the material cutting mechanism is meshed with the lower die to separate the inner shears and the outer shears from the stub bars; the bottom of the inclined workbench groove on the lower die is convexly provided with a thimble towards the opening end of the inclined workbench groove, the outer shears are obliquely arranged through the bottom of the groove, when the front rotating shaft of the inner shears is clamped into the front shaft hole of the outer shears and then continues to translate towards the front, the lower side of the rear part of the outer shears is in sliding contact with the top end surface of the thimble, so that the rear side of the outer shears is gradually lifted upwards, and finally the rear shaft hole of the outer shears is matched with the rear rotating shaft of the inner shears in an; the automatic assembling equipment for the scissor legs has the advantages that the stub bar is cut off through the material cutting mechanism, the inner scissors are grabbed and assembled with the outer scissors through the action of the upper die, and finally the stripping is completed through the material stripping mechanism, so that the automatic assembling equipment for the scissor legs has many parts and is high in cost; meanwhile, the assembly steps are numerous, and the efficiency is not high enough.

Therefore, the automatic scissors foot assembling machine which is simpler in structure and higher in production efficiency is developed.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide the automatic scissors foot assembling machine which is simpler in structure and higher in production efficiency.

In order to achieve the purpose, the invention adopts the technical scheme that: an automatic assembling machine for scissor legs comprises a workbench, an upper die capable of moving horizontally and vertically, a material cutting mechanism and a lower die fixedly arranged; the lower die is arranged at the rear part of the workbench; the upper die and the blanking mechanism are integrally arranged and can synchronously horizontally move back and forth; the upper die can vertically lift; the cutting mechanism is positioned right above the upper die and comprises a plate body and a cutter combination vertically arranged on the lower surface of the plate body, the cutter combination penetrates through the lower surface of the upper die, and the cutting mechanism is vertically lifted; the lower die is used for placing the accessory unit in advance; the accessory unit comprises regularly arranged inner scissors and outer scissors; the inner shears and the outer shears are connected by a stub bar; when the upper die moves right above the lower die, the upper die descends, and when the grabbing shafts on the upper die are respectively inserted into the inner holes of the corresponding inner shears, the inner shears are tightly pressed, and meanwhile, the grabbing of the inner shears is realized; meanwhile, the cutter combination of the material cutting mechanism can cut off the stub bar between the inner shear and the outer shear; and then the upper die is lifted and moved, so that the inner shears are moved to be right above the corresponding outer shears, and then the inner shears are lowered to be assembled with the corresponding outer shears.

Preferably, the upper die and the blanking mechanism are integrally arranged on sliding rails which are arranged on the left side and the right side of the workbench in parallel; the lower die is located between the slide rails.

Preferably, the upper die can be lifted and lowered through the pressing air cylinders on the two sides of the upper die.

Preferably, the blanking mechanism can be driven to vertically lift by a blanking cylinder above the blanking mechanism.

Preferably, the automatic scissors foot assembling machine further comprises a material removing mechanism, and the material removing mechanism is arranged at the front part of the workbench; the stripping mechanisms are respectively positioned between the sliding rails; the assembled inner scissors and the assembled outer scissors are driven by the upper die to move to the stripping mechanism for stripping.

Preferably, a die carrier is arranged on the slide rail; the die carrier comprises two parallel sliding blocks, a top plate and a middle plate; the sliding blocks are correspondingly arranged on the corresponding sliding rails; the top plate is connected with the corresponding sliding block through an upright post; the middle plate is arranged at the lower part of the top plate; the integrated plate is fixedly arranged at the upper part of the middle plate; a first guide pillar is arranged between the integrated plate and the top plate; the upper die is arranged at the lower part of the middle plate; a second guide pillar is arranged between the upper die and the middle plate; the blanking cylinder is arranged on the top plate; the blanking cylinder can drive the integrated plate to move up and down along the first guide pillar; the pressing cylinder is arranged on the middle plate; the pressing cylinder can drive the upper die to move up and down along the second guide pillar.

Preferably, the stripping mechanism comprises a stripping plate which is horizontally arranged, stripping holes which are consistent with the grabbing shafts in number and distribution are arranged on the stripping plate, the stripping holes are formed by a first perforation and a second perforation which are communicated with each other, and the stripping mechanism is integrally T-shaped; the size of only the first through hole in the first through hole and the second through hole is used for the scissor feet which are horizontally arranged to vertically pass through, so that the grabbing shaft grabs the assembled scissor feet and vertically downwards passes through the first through hole, and then moves upwards when the grabbing shaft horizontally moves towards the second through hole to the lower side of the second through hole, so that the scissor feet are scraped by the hole edge of the second through hole.

Preferably, a material receiving barrel is arranged below each stripping hole.

Preferably, the material receiving barrel is of a rectangular parallelepiped barrel-shaped structure.

Due to the application of the technical scheme, compared with the prior art, the invention has the following advantages:

the lower die of the automatic scissors foot assembling machine is fixedly arranged on the workbench, and the upper die and the material cutting mechanism are integrally arranged; the die carrier can move along the slide rail; the material cutting and the inner shearing grabbing are synchronously carried out through the matching action of the upper die and the material cutting mechanism; the invention has simpler structure and higher production efficiency.

Drawings

The technical scheme of the invention is further explained by combining the accompanying drawings as follows:

FIG. 1 is a schematic perspective view of an automatic assembling machine for scissors according to the present invention;

FIG. 2 is a schematic view of a first angle structure of an upper die and a blanking mechanism of the automatic assembling machine for scissors pins according to the present invention;

FIG. 3 is a second angle structure diagram of the upper mold and the material cutting mechanism of the automatic assembling machine for scissors pins according to the present invention;

FIG. 4 is a third angle structure diagram of the upper die and the blanking mechanism of the automatic assembling machine for scissors pins according to the present invention;

FIG. 5 is an enlarged view of portion A of FIG. 3;

fig. 6 is an enlarged view of a portion B of fig. 5;

FIG. 7 is a top view of a lower mold of the automatic assembling machine for scissors blades according to the present invention;

FIG. 8 is a partial enlarged view of a lower mold of the automatic assembling machine for scissors blades of the present invention;

FIG. 9 is a schematic structural view of a material-removing mechanism of the automatic assembling machine for scissors pins according to the present invention;

FIG. 10 is a schematic structural view of the inner and outer scissors connected to the stub bar of the automatic assembling machine for scissors feet according to the present invention;

FIG. 11 is a schematic structural view of an inner scissors used in the automatic assembling machine for scissors feet according to the present invention;

FIG. 12 is a schematic structural view of an outer scissors used in the automatic assembling machine for scissors blades according to the present invention;

FIG. 13 is a schematic structural view of the scissors assembly of the automatic scissors assembly machine of the present invention;

wherein: 1. an upper die; 2. a lower die; 3. a material cutting mechanism; 4. a material stripping mechanism; 5. a material cutting cylinder; 6. a pressing cylinder; 7. a translation cylinder; 11. internal shearing; 12. carrying out external shearing; 13. a rotating shaft; 14. a shaft hole; 15. a stub bar; 16. leveling the worktable groove; 17. an inclined worktable groove; 18. a bar hole; 19. a thimble; 20. a first pressing part; 21. a second pressing part; 22. grabbing the shaft; 23. combining cutters; 24. a material removing plate; 25. a material receiving barrel; 26. material stripping holes; 27, a cutter; 31. a work table; 32. a slide rail; 33. a guide post; 34. a mold frame; 35. a middle plate; 36. a slider; 37. a top plate.

Detailed Description

The invention is described in further detail below with reference to the figures and the embodiments.

As shown in fig. 1-13, an automatic assembling machine for scissors comprises a workbench 31, an upper die 1 and a material cutting mechanism 3 which can move horizontally and vertically, a lower die 2 and a material stripping mechanism 4 which are fixedly arranged; the lower die 2 is arranged at the rear part of the workbench 31, the stripping mechanism 4 is arranged at the front part of the workbench 31, the upper die 1 and the blanking mechanism 3 are integrally arranged on slide rails which are arranged on the left side and the right side of the workbench 31 in parallel, and are driven by the translation cylinder 7 to synchronously move horizontally back and forth; the lower die 2 and the stripping mechanism 4 are respectively positioned between the slide rails 32; the upper die 1 can be lifted through the pressing cylinders 6 on the two sides of the upper die; the cutting mechanism 3 is positioned right above the upper die 1 and comprises a plate body 27 and a cutter combination 23 vertically arranged on the lower surface of the plate body 27, the cutter combination 23 penetrates through the lower surface of the upper die 1, and the cutting mechanism 3 can be driven to vertically lift through a cutting cylinder 5 above the cutting mechanism; the lower die 2 is used for placing accessory units in advance; the accessory unit comprises an inner scissors 11 and an outer scissors 12 which are regularly arranged; the inner shears 11 and the outer shears 12 are connected by a stub bar 15; when the upper die 1 moves to the position right above the lower die 2, the upper die 1 is driven to descend by the pressing cylinder 6, and when the grabbing shafts 22 on the upper die 1 are respectively inserted into the inner holes of the corresponding inner shears 11, the inner shears 11 are tightly pressed, and meanwhile grabbing of the inner shears 11 is realized; meanwhile, the cutter combination 23 of the material cutting mechanism 3 can cut off the stub bar 15 between the inner shear 11 and the outer shear 12; then the upper die 1 is lifted and moved, so that the inner shears 11 are moved right above the corresponding outer shears 12 and then are lowered to be assembled with the corresponding outer shears 12; finally, the assembled inner shears 11 and outer shears 12 are carried by the upper die 1 to move to the stripping mechanism 4 for stripping.

Specifically, as shown in fig. 7-8, a mold frame 34 is disposed on the slide rail 32; the die carrier 34 comprises two mutually parallel slide blocks 36, a top plate 37 and an intermediate plate 35; the sliding blocks 36 are correspondingly arranged on the corresponding sliding rails 32; the top plate 37 is connected with the corresponding slide block 36 through a vertical column (not shown); the middle plate 35 is disposed at the lower portion of the top plate 37; the integrated plate 27 is fixedly provided on the upper portion of the intermediate plate 35; a first guide pillar 33 is arranged between the integrated plate 27 and the top plate 37; the upper die 1 is arranged at the lower part of the middle plate 35; a second guide post (not shown) is arranged between the upper die 1 and the middle plate 35; the blanking cylinder 5 is arranged on the top plate 37; the blanking cylinder 5 can drive the integrated plate 27 to move up and down along the first guide post 33; the pressing cylinder 6 is arranged on the middle plate 35; the pressing cylinder 6 can drive the upper die 1 to move up and down along the second guide pillar; the lower die 2 comprises a flat workbench groove 16 for horizontally placing the inner shears 11 and also comprises an inclined workbench groove 17 for placing the outer shears 12 on the same straight line with the flat workbench groove 16, namely, one flat workbench groove 16 and one inclined workbench groove 17 are staggered and adjacent and are integrally arranged in a matrix form; the bottom of the inclined worktable groove 17 is convexly provided with a thimble 19 towards the opening end, and the thimble 19 is fixedly arranged at the position near the back of the bottom of the inclined worktable groove 17; the outer scissors 12 of the scissors feet are obliquely placed through the inclined workbench groove 17, the top end of the thimble 19 has a specific shape, namely, the top end surface of the thimble 19 needs to satisfy the following conditions: when the rotating shaft 13 at the front side of the inner scissors 11 horizontally arranged above the outer scissors 12 is clamped into the shaft hole 14 on the front inner side wall of the outer scissors 12 and then continuously translates towards the front, the rear inner side wall of the outer scissors 12 is in sliding contact with the top end surface of the thimble 19, so that the rear side of the outer scissors 12 is gradually lifted upwards, and finally the shaft hole 14 at the rear side of the rear inner side wall of the outer scissors 12 is in embedded fit with the rotating shaft 13 at the rear side of the inner scissors 11; in practical applications, the top end of the thimble 19 may have various configurations, such as a non-single horizontal plane, e.g. an inclined plane or a circular arc.

The upper die 1 is provided with a first pressing part 20 and a second pressing part 21 protruding towards one surface of the lower die 2, and the first pressing part 13 and the second pressing part 14 are assembled on the upper die 2 in a plurality of units; as shown in fig. 3-4, the first compressing portion 20 has a rectangular structure in socket fit with the flat worktable groove 16, the second compressing portion 21 has a right trapezoid structure in socket fit with the inclined worktable groove 17, and the first compressing portion 20 and the second compressing portion 21 on the same straight line are alternately and adjacently arranged and are integrally arranged in a matrix; the number and the layout of the first pressing parts 20 and the second pressing parts 21 on the upper die 1 are consistent with the layout of the platform grooves 16 and the inclined platform grooves 17 on the lower die 2, specifically, the first pressing parts 20 can be correspondingly inserted into the platform grooves 16, and the second pressing parts 21 can be correspondingly inserted into the inclined platform grooves 17.

The lower end face of each of the first pressing portions 20 is protruded with a grabbing shaft 22, the grabbing shaft 22 is a cone, so as to be rapidly and accurately inserted into the inner hole of the corresponding inner shears 11, the grabbing shaft 22 of the embodiment can be connected with the inner shears 11 into a whole when vertically inserted into the inner hole of the inner shears 11, that is, the grabbing shaft 22 and the inner shears 1 are matched to have certain tightness, so that the grabbing shaft 22 can be taken out of the inner shears 11 to move together with the inner shears 11 when moving.

The stripping mechanism 4 comprises a stripping plate 24 horizontally arranged, referring to fig. 9, stripping holes 26 are arranged on the stripping plate 24, the quantity of the stripping holes 26 is consistent with that of the grabbing shafts 22, the stripping holes 26 are formed by a first through hole and a second through hole which are communicated with each other, and the stripping mechanism is integrally in a T shape; only the first through hole in the first and second through holes is used for the scissor feet arranged horizontally to vertically pass through, so that the grabbing shaft 22 grabs the assembled scissor feet to vertically pass through the first through hole downwards, and then moves upwards when moving to the lower part of the second through hole horizontally towards the second through hole, so that the scissor feet are scraped by the hole edge of the second through hole; meanwhile, in order to facilitate the collection of the finished scissors feet after stripping, a rectangular barrel-shaped material receiving barrel 25 is respectively arranged below each stripping hole 26, the device can be a rectangular tube-shaped channel, and the channel is communicated with a container for containing the scissors feet below the stripping holes so as to classify the assembled scissors feet and accurately find out the problem when the upper die 1 or the lower die 2 has a problem.

The lower die 2 is further provided with a strip hole 18, the strip hole 18 is positioned right below the stub bar 15, so that when the upper die 1 moves downwards to a position matched with the lower die 2, the first pressing part 20 and the second pressing part 21 respectively press the inner shears 11 and the outer shears 12 on the lower die 2 in a one-to-one correspondence manner; meanwhile, the blanking mechanism 3 punches and separates the stub bars 15 from the inner shears 11 and the outer shears 12 in a one-to-one correspondence manner, so that the inner shears 11 and the outer shears 12 can be completely separated from the stub bars 15 very quickly and reliably, and the stub bars 15 can automatically fall and be removed from the bar holes 18.

The working principle is as follows: after an injection-molded accessory unit is placed on a lower die 2 through a manipulator, an upper die 1 and a material cutting mechanism 3 are synchronously translated to the position right above the lower die 2, then the upper die 1 is pressed downwards, all inner shears 11 and outer shears 12 on the inner and outer shear accessory units are pressed tightly through a first pressing part 20 and a second pressing part 21, a grabbing shaft 22 is inserted into an inner hole of the corresponding inner shears 11 to realize the matching fixation with the inner shears 11 and the pressing, then the material cutting mechanism 3 descends, a stub bar 15 is punched through a cutter combination 23, so that the stub bar 15 is separated from the corresponding inner shears 11 and outer shears 12 in a shearing mode, the stub bar 15 freely falls through a strip hole 18, the inner shears 11 and the outer shears 12 are successfully separated from the inner and outer shear accessory units, the outer shears 12 can be obliquely installed in an oblique workbench groove 17 due to the structure of the oblique workbench groove 17 with the oblique groove bottom on the lower die 2, and the material cutting mechanism 3 can move upwards and reset after the material cutting is completed, then the upper die 1 drives the inner shears 11 to move upwards together and move forwards continuously to the upper part of the outer shears 12 in the corresponding inclined workbench groove 17, and then moves downwards to enable the rotating shaft 13 on the front side of the inner shears 11 on the grabbing shaft 22 to be clamped with the shaft hole 14 on the front side of the outer shears, so that the inner shears 11 and the outer shears 12 form a certain pre-assembling installation included angle firstly, then the inner shears 11 drives the outer shears 12 to move forwards together in the process of continuing to move forwards, due to the special structural design of the top surface of the thimble 19, the rear side of the external shear 12 gradually slides and rises along the top surface of the thimble 19, so that the shaft hole 14 on the rear side of the outer scissors 12 is finally in snap fit with the rotating shaft 13 on the rear side of the inner scissors 11, namely, the rotating shaft 13 at the rear side and the shaft hole 14 at the rear side are automatically clamped and matched in the process that the outer scissors 12 slide on the top end surface of the thimble 19 and move upwards, so that the assembly is completed automatically and quickly; after the assembly is finished, the upper die 1 moves upwards and translates to the position right above the stripping mechanism 4, then descends, and when the grabbing shaft 22 grabs the assembled scissor legs to vertically downwards pass through the first perforation and then horizontally moves towards the second perforation to the position below the second perforation, the grabbing shaft moves upwards to enable the scissor legs to be scraped by the hole edges of the second perforation and enter the corresponding container for containing the scissor legs through the corresponding material receiving barrel 25.

the lower die of the automatic scissors foot assembling machine is fixedly arranged on a workbench, and the upper die 1 and the material cutting mechanism 3 are arranged on the same die carrier; the die carrier can move along the slide rail; the material cutting and grabbing internal shear are synchronously carried out through the matching action of the upper die 1 and the material cutting mechanism 3; the invention has simpler structure and higher production efficiency.

The above-mentioned embodiments are merely illustrative of the technical idea and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention, and all equivalent changes or modifications made according to the spirit of the present invention should be covered in the scope of the present invention.

Claims

1. The utility model provides an automatic kludge of scissors foot which characterized in that: comprises a workbench, an upper die capable of moving horizontally and vertically, a material cutting mechanism and a lower die fixedly arranged; the lower die is arranged at the rear part of the workbench; the upper die and the blanking mechanism are integrally arranged and can synchronously horizontally move back and forth; the upper die can vertically lift; the cutting mechanism is positioned right above the upper die and comprises a plate body and a cutter combination vertically arranged on the lower surface of the plate body, the cutter combination penetrates through the lower surface of the upper die, and the cutting mechanism is vertically lifted; the lower die is used for placing the accessory unit in advance; the accessory unit comprises regularly arranged inner scissors and outer scissors; the inner shears and the outer shears are connected by a stub bar; when the upper die moves right above the lower die, the upper die descends, and when the grabbing shafts on the upper die are respectively inserted into the inner holes of the corresponding inner shears, the inner shears are tightly pressed, and meanwhile, the grabbing of the inner shears is realized; meanwhile, the cutter combination of the material cutting mechanism can cut off the stub bar between the inner shear and the outer shear; and then the upper die is lifted and moved, so that the inner shears are moved to be right above the corresponding outer shears, and then the inner shears are lowered to be assembled with the corresponding outer shears.

2. The automatic scissors foot assembling machine according to claim 1, wherein: the upper die and the blanking mechanism are integrally arranged on the slide rails which are arranged on the left side and the right side of the workbench in parallel; the lower die is located between the slide rails.

3. The automatic scissors foot assembling machine according to claim 1, wherein: the upper die can be lifted through the pressing cylinders on the two sides of the upper die.

4. The automatic scissors foot assembling machine according to claim 3, wherein: the blanking mechanism can be driven by a blanking cylinder above the blanking mechanism to vertically lift.

5. The automatic scissors foot assembling machine according to claim 2, wherein: the material removing mechanism is arranged at the front part of the workbench; the stripping mechanisms are respectively positioned between the sliding rails; the assembled inner scissors and the assembled outer scissors are driven by the upper die to move to the stripping mechanism for stripping.

6. The automatic scissors foot assembling machine according to claim 4, wherein: the slide rail is provided with a die carrier; the die carrier comprises two parallel sliding blocks, a top plate and a middle plate; the sliding blocks are correspondingly arranged on the corresponding sliding rails; the top plate is connected with the corresponding sliding block through an upright post; the middle plate is arranged at the lower part of the top plate; the integrated plate is fixedly arranged at the upper part of the middle plate; a first guide pillar is arranged between the integrated plate and the top plate; the upper die is arranged at the lower part of the middle plate; a second guide pillar is arranged between the upper die and the middle plate; the blanking cylinder is arranged on the top plate; the blanking cylinder can drive the integrated plate to move up and down along the first guide pillar; the pressing cylinder is arranged on the middle plate; the pressing cylinder can drive the upper die to move up and down along the second guide pillar.

7. The automatic scissors foot assembling machine according to claim 5, wherein: the stripping mechanism comprises a horizontally arranged stripping plate, stripping holes which are consistent with the grabbing shafts in number and distribution are arranged on the stripping plate, the stripping holes are formed by a first perforation and a second perforation which are communicated with each other, and the stripping mechanism is integrally T-shaped; the size of only the first through hole in the first through hole and the second through hole is used for the scissor feet which are horizontally arranged to vertically pass through, so that the grabbing shaft grabs the assembled scissor feet and vertically downwards passes through the first through hole, and then moves upwards when the grabbing shaft horizontally moves towards the second through hole to the lower side of the second through hole, so that the scissor feet are scraped by the hole edge of the second through hole.

8. The automatic scissors foot assembling machine according to claim 7, wherein: a material receiving barrel is arranged below each stripping hole.

9. The automatic scissors foot assembling machine according to claim 8, wherein: the material receiving barrel is of a rectangular barrel-shaped structure.