CN218744763U - Automatic forming and feeding device for micro-miniature inserts - Google Patents

Abstract

The utility model discloses a microminiature mold insert automatic forming feedway, include: the bottom plate, be provided with the translation subassembly on the bottom plate, the last connection of translation subassembly is provided with connects the material subassembly, the one end of translation subassembly is provided with longitudinal extension's support frame, the top connection of support frame is provided with carries the material subassembly, the side of support frame is provided with the blowing subassembly, carry and to pass through the passage intercommunication between material subassembly and the blowing subassembly. In this way, the utility model discloses can utilize mechanical blowing to connect the material, replace manual work, effectively improve work efficiency, reduce the work error, reduce the cost of labor.

Description

Automatic forming and feeding device for micro-miniature inserts

Technical Field

The utility model relates to a get and put material technical field, especially relate to a microminiature mold insert automatic forming feedway.

Background

The insert is specially used for an irregular die-casting accessory embedded in the die, and generally has different materials from the die-casting accessory; the die casting forming process can embed the die casting into a die casting after die casting forming.

Among the prior art, getting of microminiature mold insert is usually operated through the manual work with the blowing, the manual work is put into the mould of make-up machine with the mold insert to adjust the position of microminiature mold insert by the manual work, but the manual work carries out the substep operation, whole work efficiency is lower, be difficult to realize the volume production, manual operation process receives the human factor influence simultaneously more, because the mold insert volume is less, the manual work process of taking is comparatively difficult, it is difficult to place the mold insert accuracy in corresponding the hole site, the error rate is higher, cause the product yields lower, manual work leads to the human cost too high.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the main technical problem who solves provides a microminiature mold insert automatic forming feedway, can realize mechanical automation blowing and get the material, replaces manual work completely, effectively improves work efficiency, reduces the cost of labor.

In order to solve the technical problem, the utility model discloses a technical scheme be: the utility model provides a microminiature mold insert automatic molding feedway, includes: the bottom plate, be provided with the translation subassembly on the bottom plate, the last connection of translation subassembly is provided with connects the material subassembly, the one end of translation subassembly is provided with longitudinal extension's support frame, the top connection of support frame is provided with carries the material subassembly, the side of support frame is provided with the blowing subassembly, carry and to pass through the passage intercommunication between material subassembly and the blowing subassembly.

Preferably, the discharging assembly comprises a lifting driving piece which is connected and arranged on the side edge of the support frame, the lower end of the lifting driving piece is connected and provided with a discharging plate, at least one group of discharging jigs are arranged below the discharging plate, discharging holes are formed in the discharging jigs in a penetrating mode, and the discharging holes are communicated with the material guide pipes.

Preferably, a material blocking cylinder is arranged on one side of the material placing jig, a blocking needle is connected and arranged on a cylinder shaft of the material blocking cylinder, a through hole is formed in one side, close to the material blocking cylinder, of the material placing jig, the through hole is communicated with the material placing hole, the blocking needle penetrates through the through hole, and a plurality of positioning columns are circumferentially arranged on the bottom surface of the material placing plate.

Preferably, the translation subassembly is in including translation guide rail and setting the translation driving piece of translation guide rail side, it is provided with the guide block to slide on the translation guide rail, the guide block with the translation driving piece passes through connecting plate interconnect, the both ends that the translation guide rail extends along length direction are provided with the stopper.

Preferably, the material receiving assembly comprises a material receiving plate, at least one material receiving jig is arranged on the material receiving plate, at least one material receiving hole is formed in the upper portion of each material receiving jig, and a plurality of positioning holes are formed in the circumferential direction of the material receiving plate.

Preferably, the material loading assembly comprises a support frame top plate fixed on the top end of the support frame, at least one vibration plate is fixedly arranged on the support frame top plate, and a cushioning pad is arranged between the vibration plate and the support frame top plate.

The beneficial effects of the utility model are that: the utility model discloses utilize the orderly unloading of vibration dish control microminiature mold insert, carry through the passage, through the unloading number that blocks the downthehole microminiature mold insert of cylinder control blowing, realize the accurate unloading of microminiature mold insert, through the mutual corresponding cooperation that connects material hole and blowing hole, translation cylinder drives and connects the flitch to control and remove, the accurate material and the pay-off of connecing of realization microminiature mold insert, replace manual operation completely, effectively improve work efficiency, reduce the cost of labor, reference column and locating hole mutually support, realize more accurate mechanized operation, reduce the work error among the operation process.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic structural view of the discharge assembly of the present invention;

fig. 3 is a schematic structural view of the receiving assembly of the present invention;

the parts in the drawings are numbered as follows:

1. a base plate;

2. a translation assembly; 21. a translation guide rail; 22. a guide block; 23. a translation cylinder; 24. a connecting plate; 25. a limiting block;

3. a material receiving assembly; 31. a material receiving plate; 32. a material receiving jig; 33. a receiving hole; 34. positioning holes;

4. a support frame;

5. a loading assembly; 51. a support frame top plate; 52. a vibrating pan;

6. a discharging component; 61. a lifting cylinder; 62. a material placing plate; 63. placing a material tool; 64. a discharge hole; 65. a through hole; 66. a material blocking cylinder; 67. a blocking needle; 68. a positioning column;

7. a material guide pipe.

Detailed Description

The following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so as to enable those skilled in the art to more easily understand the advantages and features of the present invention, and thereby define the scope of the invention more clearly and clearly.

As shown in fig. 1, the embodiment of the present invention includes: the bottom plate 1, the translation assembly 2 is fixedly arranged on the bottom plate 1, the translation assembly 2 comprises a translation guide rail 21 extending horizontally and a translation driving part fixed on the side edge of the translation guide rail 21, the translation driving part can be a translation cylinder, a translation hydraulic cylinder and the like, in the embodiment, the translation driving part selects the translation cylinder 23, the translation guide rail 21 is provided with a guide block 22 in a sliding manner, the guide block 22 and a push rod of the translation cylinder 23 are connected with each other through a connecting plate 24, in the embodiment, the translation guide rails 21 are provided with two parallel guide rails, the stability of the connecting plate 24 in the translation process can be enhanced, the translation cylinder 23 is fixedly arranged between the two translation guide rails 21, the translation cylinder 23 drives the connecting plate 24 to move left and right, two sides of the connecting plate 24 are fixedly connected with the guide blocks 22 on two sides respectively, the connecting plate 24 drives the guide block 22 to slide on the translation guide rail 21, and the moving direction of the connecting plate 24 is ensured to be a straight line; translation guide rail 21 all is provided with stopper 25 along length direction's both ends, plays limiting displacement to connecting plate 24, and accurate control connecting plate's initial position and stop position realize that the accurate automation of mold insert connects the material and gets the material.

As shown in fig. 1 and fig. 3, at least one set of material receiving assembly 3 is fixedly disposed on the connecting plate 24 through screws, in this embodiment, two sets of material receiving assembly 3 are disposed on the connecting plate 24, each set of material receiving assembly 3 includes a material receiving plate 31 fixed on the connecting plate 24, at least one material receiving jig 32 is disposed on the material receiving plate 31, at least one material receiving hole 33 is disposed on each material receiving jig 32, in this embodiment, four material receiving jigs 32 are disposed on the material receiving plate 31, 2 material receiving holes 33 are disposed on each material receiving jig 32, 8 material receiving holes 33 are collectively disposed on each set of material receiving assembly 3, the size of each material receiving hole 33 is adapted to the size of a micro-miniature insert, different material receiving jigs can be replaced according to the size of the micro-miniature insert, and flexibility is high.

As shown in fig. 1, two sets of support frames 4 extending longitudinally are further disposed on a bottom plate 1, the support frames 4 are disposed at one end of a translation guide rail 21 extending in a length direction, a material loading assembly 5 is disposed at the top of each support frame 4, the material loading assembly 5 includes a support frame top plate 51 fixed at the top end of each support frame 4, at least one vibration plate 52 is fixedly disposed on each support frame top plate 51, a vibration damping pad is disposed at a joint of each vibration plate 52 and each support frame top plate 51, micro inserts are disposed in the vibration plates 52, and the micro inserts can be orderly arranged by the vibration plates 52.

As shown in fig. 1, 2 and 3, a discharging assembly 6 is connected to one side of each support frame 4 close to the translation assembly 2, the discharging assembly 6 includes a lifting driving member fixed to the support frame 4, in this embodiment, the lifting driving member employs a lifting cylinder 61, a discharging plate 62 is connected to a lower end of a push rod of the lifting cylinder 61, at least one group of discharging jigs 63 is arranged on a bottom surface of the discharging plate 62, at least one discharging hole 64 is formed on the discharging jig 63, the discharging holes 64 are arranged to be through from top to bottom, in this embodiment, the number of the discharging jigs 63 is the same as that of the receiving jigs 32, the number of the discharging holes 64 is the same as that of the receiving holes 33, 4 groups of discharging jigs 63 are arranged on the bottom of each discharging plate 62, 2 discharging holes 64 are formed on each discharging jig 63, the size of the discharging holes 64 is adapted to the size of the micro inserts, the vibration plate 52 is communicated with the discharging holes 64 through a material guide tube 7, and the micro inserts in the vibration plate 52 fall into the discharging holes 64 through the material guide tube 7, and different sizes of the discharging jigs 63 and material guide tubes 7 can be replaced according to different sizes of the micro inserts.

As shown in fig. 1 and 2, a material blocking cylinder 66 is arranged on one side of the material placing jig 63, a blocking needle 67 is connected and arranged at the front end of a cylinder shaft of the material blocking cylinder 66, a through hole 65 is formed in the side wall, close to one side of the material blocking cylinder 66, of the material placing jig 63, the through hole 65 horizontally extends to the material placing hole 64, the through hole 65 is communicated with the material placing hole 64, the diameter of the blocking needle 67 is matched with the width of the through hole 65, it is ensured that the blocking needle 67 can be smoothly inserted into the through hole 65, the material blocking cylinder 66 acts to drive the blocking needle 67 to move forwards to the material placing hole 64, the blocking needle 67 blocks the material placing hole 64, and the dropping of the micro insert is blocked.

As shown in fig. 1, 2 and 3, 4 positioning holes 34 are circumferentially arranged on each material receiving plate 31, 4 positioning pillars 68 are circumferentially arranged on the bottom surface of each material discharging plate 62, and the positioning pillars 68 correspond to the positioning holes 34, so that the material receiving plates 31 are ensured to accurately move to the lower side of the material discharging plates 62, and the micro insert is ensured to accurately fall into the material receiving hole 33.

The working principle is as follows:

the device is started, the device is reset, the discharging plate 62 is located at the upper limit position, the material receiving plate 31 is located at the initial position of the bottom plate 1, and the material blocking cylinder 66 below the discharging plate 62 acts to drive the blocking needle 67 to be inserted from the through hole 65 on the side face of the discharging jig 63 and form 90-degree intersection with the discharging hole 64 of the discharging jig 63.

The upper vibrating disc 52 works to continuously convey the micro inserts into the discharging hole 64 through the material guide pipe 7, and the micro inserts cannot fall due to the blocking of the blocking needle 67.

The effect of below translation cylinder 23 is removed the below of blowing tool 63 to connect material tool 32 left side, and stop motion after the connecting plate contacts stopper 25, and lift cylinder 61 effect, lift cylinder 61's push rod drive blowing board 62 downstream is close to and connects flitch 31, and four reference columns 68 of blowing board 62 below insert four locating holes 34 on connecing flitch 31, realize the accurate location of blowing board 62 and connecing flitch 31.

The material blocking cylinder 66 below the material discharging plate 62 moves to drive the blocking needle 67 to retreat from the material discharging hole 64, due to the fact that the blocking needle 67 does not block, the micro inserts respectively fall into the material receiving hole 33 below from the material discharging hole 64, the material blocking cylinder 66 below the material discharging plate 62 moves again to drive the blocking needle 67 to extend out again to form 90-degree intersection with the material discharging hole 64, and other micro inserts in the material guiding pipe 7 are prevented from continuously falling.

The lifting cylinder 61 drives the material receiving plate 31 to move upwards and return to the upper limit position, the translation cylinder 23 drives the material receiving jig 32 to move rightwards under the action of the translation cylinder, the connecting plate 24 stops moving after contacting the limit block 25, the material receiving plate 31 returns to the right end initial position, the micro insert is grabbed out of the material receiving hole 33 by an external manipulator and placed into a mold of the forming machine, one-time operation is completed, and next operation is performed.

The above-mentioned only be the embodiment of the present invention, not consequently the restriction of the patent scope of the present invention, all utilize the equivalent structure or equivalent flow transform made of the content of the specification and the attached drawings, or directly or indirectly use in other relevant technical fields, all including in the same way the patent protection scope of the present invention.

Claims (6)

1. A microminiature insert automatic forming and feeding device comprises: bottom plate, its characterized in that: the material conveying device is characterized in that a translation assembly is arranged on the bottom plate, a material receiving assembly is connected and arranged on the translation assembly, a support frame extending longitudinally is arranged at one end of the translation assembly along the length extending direction, a material carrying assembly is connected and arranged at the top end of the support frame, a material discharging assembly is connected and arranged on the side edge of the support frame, and the material carrying assembly is communicated with the material discharging assembly through a material guide pipe.

2. The apparatus for automatically forming and feeding micro-miniature inserts as claimed in claim 1, wherein: the discharging assembly comprises a lifting driving piece which is connected and arranged on the side edge of the supporting frame, the lower end of the lifting driving piece is connected and provided with a discharging plate, at least one group of discharging jigs are arranged below the discharging plate, discharging holes are formed in the discharging jigs in a penetrating mode, and the discharging holes are communicated with the material guide pipes.

3. The automatic forming and feeding device for miniature inserts as claimed in claim 2, wherein: the material stopping device is characterized in that a material stopping cylinder is arranged on one side of the material stopping tool, a blocking needle is connected and arranged on a cylinder shaft of the material stopping cylinder, a through hole is formed in one side, close to the material stopping cylinder, of the material stopping tool, the through hole is communicated with the material discharging hole, the blocking needle penetrates through the through hole, and a plurality of positioning columns are circumferentially arranged on the bottom surface of the material discharging plate.

4. The automatic forming and feeding device for miniature inserts as claimed in claim 1, wherein: the translation subassembly is in including translation guide rail and setting the translation driving piece of translation guide rail side, the slip is provided with the guide block on the translation guide rail, the guide block with the translation driving piece passes through connecting plate interconnect, the both ends that the translation guide rail extends along length direction are provided with the stopper.

5. The automatic forming and feeding device for miniature inserts as claimed in claim 1, wherein: the material receiving assembly comprises material receiving plates, at least one material receiving jig is arranged on each material receiving plate, at least one material receiving hole is formed in the upper portion of each material receiving jig, and a plurality of positioning holes are formed in the circumferential arrangement of the material receiving plates.

6. The automatic forming and feeding device for miniature inserts as claimed in claim 1, wherein: the material loading assembly comprises a support frame top plate fixed to the top end of the support frame, at least one vibration disc is fixedly arranged on the support frame top plate, and a cushioning pad is arranged between the vibration disc and the support frame top plate.

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