CN212831377U

CN212831377U - Vertical insert embedding equipment

Info

Publication number: CN212831377U
Application number: CN202021042113.5U
Authority: CN
Inventors: 刘锦雄
Original assignee: Xiamen Galapu Molding Technology Co ltd
Current assignee: Quanzhou Granpu Moulding Technology Co ltd
Priority date: 2020-06-09
Filing date: 2020-06-09
Publication date: 2021-03-30
Anticipated expiration: 2030-06-09

Abstract

A vertical insert embedding device comprises a feeding machine, an injection molding embedding machine and a blanking machine, wherein the feeding machine comprises a feeding frame and a feeding group arranged on the feeding frame, and the feeding group comprises a vibrating disc and an output single-row guide rail which are sequentially connected; the injection molding embedding machine comprises an embedding frame and a positioning tool, and the positioning tool is arranged on the embedding frame; the blanking machine comprises a discharging frame and a discharging body, and the discharging body is arranged on the discharging frame; an insert displacement guide rail penetrates through the space between the feeding frame and the embedding frame, and a displacement claw is connected on the insert displacement guide rail in a sliding mode so as to transfer the insert to the positioning tool; a blanking guide rail penetrates through the space between the embedding frame and the discharging frame, and a blanking claw is connected on the blanking guide rail in a sliding mode so as to transfer a product embedded with the insert to the discharging hopper. This novel insert of ensureing imbeds orderly and quantitative processing, ensures the one-to-one and accurate processing of working of plastics and insert, promotes product quality and qualification rate.

Description

Vertical insert embedding equipment

Technical Field

The utility model relates to a connecting piece processing equipment especially relates to a vertical mold insert buries equipment.

Background

For the quick and convenient installation of the various parts in the furniture, the connection is made using a connection piece comprising a plastic part and a metal insert connected to each other.

At present, plastic parts and metal inserts are generally adopted for processing connecting pieces and are respectively fed, the metal inserts are embedded into the plastic parts, and then blanking is carried out, so that connecting pieces produced in batches are obtained; and only another conveying belt or other transmission structures are additionally arranged in the workpiece feeding process, the metal inserts and the plastic parts are respectively and massively fed and then assembled, and the plastic parts and the metal inserts cannot be accurately assembled in one-to-one correspondence in an assembling part, so that the yield is reduced, and the product processing cost is increased.

Therefore, how to reduce the processing cost, improve the product yield and shorten the insert embedding equipment of the processing cycle on the basis of the original processing equipment is one of the technical problems to be solved by the technical personnel in the field.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a vertical mold insert buries technical scheme of equipment, it includes the material loading machine, moulds plastics and bury machine and blanking machine, wherein:

the feeding machine comprises a feeding frame and a feeding group arranged on the feeding frame, wherein the feeding group comprises a vibrating disc and an output single-row guide rail which are sequentially connected;

the injection molding embedding machine comprises an embedding frame and a positioning tool, and the positioning tool is arranged on the embedding frame;

the blanking machine comprises a discharging frame and a discharging body, the discharging body is arranged on the discharging frame and is a discharging hopper, and a discharging port of the discharging hopper is communicated with a material box;

an insert displacement guide rail penetrates through the space between the feeding frame and the embedding frame, and a displacement claw is connected on the insert displacement guide rail in a sliding mode so as to transfer the insert to the positioning tool; a blanking guide rail penetrates through the space between the embedding frame and the discharging frame, and a blanking claw is connected on the blanking guide rail in a sliding mode so as to transfer a product embedded with the insert to the discharging hopper.

Further preferred is: the feeding group further comprises a discharging disc, the discharging disc is arranged below the displacement claw and matched with the displacement claw to transfer the insert.

Further preferred is: a transfer claw is arranged above the tail end of the output single-row guide rail and fixed on a sliding block, the sliding block is sleeved on a transverse sliding rail, the transverse sliding rail is connected to a vertical sliding rail in a sliding mode, and the vertical sliding rail is erected on the feeding frame;

the discharge disc is located below the transverse sliding rails to achieve insert transfer between the output single-row guide rails and the discharge disc.

Further preferred is: the tail end of the insert displacement guide rail and the tail end of the blanking guide rail are both located on the positioning tool.

Further preferred is: the positioning tool is a die block provided with plastic pieces, and a plurality of plastic piece fixing stations are arranged on the die block; the number and the distribution of the plastic part fixing stations are matched with those of the displacement claws.

Further preferred is: the positioning tool is fixed on a mounting plate, and the mounting plate is arranged on the embedded frame.

Further preferred is: the displacement claw comprises a displacement claw frame and a plurality of clamping jaws, and the clamping jaws are fixed on the displacement claw frame.

Further preferred is: the clamping jaw comprises a pushing body, a mounting frame and a jaw body, the pushing body is vertically fixed on a side plate of the displacement jaw frame, the displacement jaw frame is connected to the insert displacement guide rail, the mounting frame is installed at the output end of the pushing body, and the jaw body is installed on the mounting frame.

Further preferred is: each said claw body includes the clamping body and two relatively clamp plates that set up, wherein:

the clamping body is fixed on the bottom surface of the mounting frame, the lower end of the clamping body is fixed with a clamping guide rail, two sliding blocks are arranged in the clamping guide rail, and the two sliding blocks are driven by the clamping body to move relatively;

the two clamping plates are respectively fixed on the two sliding blocks to form a linkage structure.

Further preferred is: the plurality of claw bodies are arranged on the bottom surface of the displacement claw frame in a straight line shape.

Compared with the prior art, the utility model has the advantages of it is following:

in the utility model, an insert displacement guide rail is used for communication between the feeding machine and the injection molding embedding machine, a displacement claw is arranged on the insert displacement guide rail, so that the ordered and quantitative feeding of the inserts is realized, the plastic part is positioned on the positioning tool, and the inserts are embedded in the positioning tool; the embedding machine and the blanking machine are communicated through the blanking guide rail, the blanking guide rail is provided with the blanking claw, so that the blanking claw is utilized to carry out ordered and quantitative blanking, ordered and quantitative processing of embedding of the inserts is ensured, one-to-one correspondence and accurate processing of plastic parts and inserts are ensured, and the product quality and the qualified rate are improved.

Drawings

Fig. 1 is a schematic perspective view of the vertical insert embedding apparatus according to the embodiment of the present invention;

fig. 2 is a front view of the vertical insert embedding apparatus according to the embodiment of the present invention;

FIG. 3 is a top view of FIG. 2;

fig. 4 is a schematic perspective view of the structure of the feeding machine in the embodiment of the present invention;

fig. 5 is a schematic perspective view of the structure of the blanking machine in the embodiment of the present invention.

Detailed Description

The plastic part and the metal insert are respectively fed aiming at the processing of the connecting piece, the metal insert is embedded into the plastic part, and then the blanking is carried out, so as to obtain the connecting piece produced in batch; and only another conveying belt or other transmission structures are additionally arranged in the workpiece feeding process, the metal inserts and the plastic parts are respectively and massively fed and then assembled, and the plastic parts and the metal inserts cannot be accurately assembled in one-to-one correspondence in an assembling part, so that the yield is reduced, and the product processing cost is increased.

The inventor continuously researches and discovers a technical scheme of a vertical insert embedding device aiming at the technical problems through analyzing reasons, wherein the technical scheme comprises a feeding machine, an injection embedding machine and a blanking machine, wherein:

According to the technical scheme, the feeding machine and the injection molding embedding machine are communicated through an insert displacement guide rail, a displacement claw is arranged on the insert displacement guide rail, so that the ordered and quantitative feeding of inserts is realized, a plastic part is positioned on a positioning tool, and the inserts are embedded in the positioning tool; the embedding machine and the blanking machine are communicated through the blanking guide rail, the blanking guide rail is provided with the blanking claw, so that the blanking claw is utilized to carry out ordered and quantitative blanking, ordered and quantitative processing of embedding of the inserts is ensured, one-to-one correspondence and accurate processing of plastic parts and inserts are ensured, the product quality and the qualification rate are improved, the processing cost is reduced, and the technical problems in the prior art are effectively solved.

The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings.

Example (b):

the technical scheme of the vertical insert embedding equipment comprises a feeding machine 1, an injection molding embedding machine 2 and a blanking machine 3.

The feeding machine 1 comprises a feeding frame 11 and a feeding group arranged on the feeding frame 11, wherein a feeding frame (not shown) is further buckled on the feeding frame, and the feeding group comprises a vibrating disc 12 and an output single-row guide rail 13 which are sequentially connected; the outlet of the vibrating disk 12 is communicated 13 with the output single-row guide rail, and the output single-row guide rail 13 comprises two guide rail grooves which are parallel to each other; a baffle is arranged at the outlet of each guide rail groove, and a transfer body 14 is arranged above the baffle; as an embodiment of the present invention, the number of the vibrating discs 12 and the number of the output single-row guide rails 13 correspond to each other one by one, the number of the vibrating discs 12 is two, and the number of the single-row guide rails is two, so that the feeding machine 1 has four guide rail grooves, the end of each guide rail groove is a discharge port, and four discharge stations of screws are formed;

the transfer body 14 includes vertical guide 141, transverse guide and transfer claw 143, vertical guide 141 stand on go up the work or material rest 11, transverse guide transversely put and slide connect in on the vertical guide 141, transfer claw 143 is fixed in on the slider to slide connect in on the transverse guide, this transfer claw 143 includes two correspondences two clamping jaws that the discharge gate set up.

The feeding group further comprises a discharging disc 15, the discharging disc 15 is arranged below a displacement claw 41 and is matched with the displacement claw 41 to transfer the inserts, and the discharging disc 15 is arranged below the transverse sliding rail to transfer the inserts between the output single-row guide rail 13 and the discharging disc 15; the discharging disc 15 is provided with four positioning bodies, the positioning bodies are distributed at equal angles and distributed along the radial direction of the discharging disc, and eight positioning holes which are arranged in a straight line are arranged on each positioning body so as to effectively position the insert.

The injection molding embedding machine 2 comprises an embedding frame 21 and a positioning tool 22, wherein the positioning tool 22 is arranged on the embedding frame 21; the positioning tool 22 is a mold block provided with plastic parts, a plurality of plastic part fixing stations are arranged on the mold block, the positioning tool 22 is fixed on a mounting plate, and the mounting plate is arranged on the embedded frame 21.

An insert displacement guide rail 4 penetrates between the loading frame 11 and the embedding frame 21, and the insert displacement guide rail 4 is connected with the displacement claw 41 in a sliding mode so as to transfer the insert to the positioning tool 22.

The displacement claw 41 comprises a displacement claw frame 411 and a plurality of clamping claws 412, and the clamping claw 411 in each displacement claw 41 has the same structure as the clamping claw in the transfer claw 143. The displacement claw 41 has four clamping jaws 411 fixed to the displacement claw frame 411, and the four clamping jaws are arranged in a line on the displacement claw frame 411;

the fine adjustment structure 8 is arranged on the displacement claw 41, the fine adjustment structure 8 comprises an upper smooth surface bearing and a lower smooth surface bearing, a hole in the middle of each bearing is slightly larger than the bolt, the smooth surface bearings can slightly move on the horizontal plane, and the hole in the middle of each bearing provides a space for the insert to move. One end of the insert clamping structure is fixed and moves along with the displacement claw 41, and a positioning rod which is aligned with the positioning tool 22 in the injection molding embedding machine 2 is arranged below the other end of the insert clamping structure. Therefore, when the end of the transverse guide rail moves to a fixed position, the positioning rod at the other end is not necessarily completely and accurately aligned with the positioning hole in the positioning tool in the injection molding embedding machine, but the positioning rod can slightly move through the structure of the fine adjustment part to be aligned with the positioning hole, so that the positioning is completed;

each clamping jaw 412 comprises a pushing body 412-2, a mounting frame 412-3 and a jaw body, the displacement jaw frame 411 is connected to the insert displacement guide rail 4, the pushing body 412-2 is vertically fixed on a side plate of the displacement jaw frame 411, and the lower end of the pushing body 412-2 is fixedly connected to the mounting frame 412-3. Each claw body is fixed on the mounting frame 412-3 and comprises a clamping body 412-4 and two oppositely arranged clamping plates 412-5, the clamping body 412-4 is fixed on the bottom surface of the mounting frame 412-3, the lower end of the clamping body is fixed with a clamping guide rail, two sliding blocks are arranged in the clamping guide rail, and the two sliding blocks are driven by the clamping body to move relatively; the two clamping plates 412-5 are respectively fixed on the two sliding blocks and form a linkage structure; the two clamping plates 412-5 are oppositely arranged L-shaped clamping plates, and the tail ends of the two clamping plates are provided with two positioning clamping holes to form a two-station clamping structure.

The blanking machine 3 comprises a discharging frame 31 and a discharging body 32, wherein a discharging frame (not shown) is buckled on the discharging frame 31, and the discharging body 32 is arranged on the discharging frame 31; a blanking guide rail 5 penetrates between the embedding frame 21 and the discharging frame 31, and a blanking claw 6 is connected on the blanking guide rail 5 in a sliding manner so as to transfer the product embedded with the insert to the lower material body 32.

As an embodiment of the present invention, the number of the discharging bodies 32 is two, and each of the discharging bodies 32 is a discharging hopper, the top opening of the discharging hopper is a feeding hole, and the front side surface of the discharging hopper is provided with a discharging hole, and the discharging hole is connected to a material box 33.

The blanking claw 6 comprises a blanking seat 61, a pushing body 62, a blanking plate 63 and four blanking claws, the blanking seat is connected to the blanking guide rail in a sliding manner, the pushing body 62 is fixed on the side wall of the blanking seat 61, the lower end of the pushing body is arranged towards the direction of the feeding hole and is fixedly connected with the blanking plate 63, and the number of the blanking claws is four and is distributed in a matrix manner; each material claw comprises a clamping body 65 and two oppositely arranged material claw clamping plates 64, the clamping body is fixed on the bottom surface of the mounting frame 63, the lower end of the clamping body is fixed with a clamping guide rail, two sliding blocks are arranged in the clamping guide rail, and the two sliding blocks are driven by the clamping body to move relatively; the two claw clamping plates 64 are respectively fixed on the two sliding blocks and form a linkage structure; each of the gripper plates 64 is a flat plate.

The tail end of the insert displacement guide rail 4 and the tail end of the blanking guide rail 5 are both positioned on the positioning tool 22.

The specific processing procedure of the structure is as follows:

the vibrating disc 12 is used for sequentially discharging the inserts, the tail ends of a single-row discharging guide rail 13 are discharged, the transferring claw 14 is used for transferring the inserts, and the inserts are placed on the positioning hole of the discharging disc 15; the insert on the positioning hole is transferred to a plastic part fixing station on the positioning tool 22 from a feeding machine through the displacement claw 41, so that the insert is embedded; and then, the plastic part embedded into the insert is transferred to the discharging hopper by using the discharging claw 6 for discharging.

Although the present invention has been described with reference to the preferred embodiments, it is not intended to limit the present invention, and those skilled in the art can make modifications and changes without departing from the spirit and scope of the present invention.

Claims

1. Vertical mold insert buries equipment, its characterized in that: it includes material loading machine, buries machine and blanking machine of moulding plastics, wherein:

2. The vertical insert burying apparatus according to claim 1, wherein: the feeding group further comprises a discharging disc, the discharging disc is arranged below the displacement claw and matched with the displacement claw to transfer the insert.

3. The vertical insert burying apparatus according to claim 2, wherein: a transfer claw is arranged above the tail end of the output single-row guide rail and fixed on a sliding block, the sliding block is sleeved on a transverse sliding rail, the transverse sliding rail is connected to a vertical sliding rail in a sliding mode, and the vertical sliding rail is erected on the feeding frame;

4. The vertical insert burying apparatus according to claim 1, wherein: the tail end of the insert displacement guide rail and the tail end of the blanking guide rail are both located on the positioning tool.

5. The vertical insert burying apparatus according to claim 1 or 4, wherein: the positioning tool is a die block provided with plastic pieces, and a plurality of plastic piece fixing stations are arranged on the die block; the number and the distribution of the plastic part fixing stations are matched with those of the displacement claws.

6. The vertical insert burying apparatus according to claim 5, wherein: the positioning tool is fixed on a mounting plate, and the mounting plate is arranged on the embedded frame.

7. The vertical insert burying apparatus according to claim 5, wherein: the displacement claw comprises a displacement claw frame and a plurality of clamping jaws, and the clamping jaws are fixed on the displacement claw frame.

8. The vertical insert burying apparatus according to claim 7, wherein: the clamping jaw comprises a pushing body, a mounting frame and a jaw body, the pushing body is vertically fixed on a side plate of the displacement jaw frame, the displacement jaw frame is connected to the insert displacement guide rail, the mounting frame is installed at the output end of the pushing body, and the jaw body is installed on the mounting frame.

9. The vertical insert burying apparatus according to claim 8, wherein: each said claw body includes the clamping body and two relatively clamp plates that set up, wherein:

10. The vertical insert burying apparatus according to claim 9, wherein: the plurality of claw bodies are arranged on the bottom surface of the displacement claw frame in a straight line shape.