CN220864588U - Iron wire embedded whole plate feeding injection molding equipment - Google Patents

Abstract

The utility model discloses iron wire embedded whole plate feeding injection molding equipment which comprises an iron wire discharging device, a first temporary storage device, a carrier conveying device, a carrying device, a second temporary storage device, a discharging transfer device and an injection molding machine, wherein the first temporary storage device is arranged on the side edge of the iron wire discharging device and used for presetting a plurality of iron wires in sequence; the handling device comprises a first clamping assembly for clamping the whole iron wire plates in the first temporary storage device, a second clamping assembly for clamping the pressing plates and clamping the whole iron wire plates in a matched carrier crimping and positioning mode. The utility model realizes the stable arrangement and limit of the whole iron wire plates, the efficient cyclic feeding and discharging conveying of the whole iron wires, and the efficiency of the embedded injection molding of the whole iron wires is improved.

Description

Iron wire embedded whole plate feeding injection molding equipment

Technical Field

The utility model belongs to the technical field of injection molding, and particularly relates to iron wire embedded whole plate feeding injection molding equipment.

Background

The parts are pre-buried in products in the injection molding machine, and then the products are injection molded in a conventional processing mode by die assembly. The loading and unloading mode that usually adopts is that the manipulator picks up spare part one by one and sends into in the injection molding machine, because spare part needs the quantity of burying more, and the manipulator moves the spare part to the action flow that needs longer in the injection molding machine one by one, and material loading efficiency is limited can't satisfy batch production. The improvement is reasonable in adopting a mode of feeding and conveying parts to the injection molding machine by the whole plate, and according to different types of parts, such as iron wires, long and thin parts can be moved and misplaced during whole plate transfer, so that equipment which can stabilize the positioning of the whole iron wires on a carrier and has efficient circulation function in transferring and loading and unloading is required to be designed.

Disclosure of utility model

The utility model aims to solve the technical problems and provides iron wire embedding whole plate feeding injection molding equipment, so that the stable arrangement and limit of a plurality of iron wires on the whole plate are realized, the feeding and discharging conveying of the iron wires on the whole plate are efficiently circulated, and the iron wire embedding injection molding efficiency of the whole plate is improved. In order to achieve the above purpose, the technical scheme of the utility model is as follows:

The iron wire embedded whole plate feeding injection molding device comprises an iron wire discharging device, a first temporary storage device, a carrier conveying device, a carrying device, a second temporary storage device, a discharging transfer device and an injection molding machine, wherein the first temporary storage device is arranged on the side edge of the iron wire discharging device and used for presetting a plurality of iron wires in a positioning sequence; the handling device comprises a first clamping assembly for clamping the whole iron wire plates in the first temporary storage device, a second clamping assembly for clamping the pressing plates and clamping the whole iron wire plates in a matched carrier crimping and positioning mode.

Compared with the prior art, the iron wire embedded whole plate feeding injection molding equipment has the following main beneficial effects:

The iron wires and the pressing plates are fed in sequence through the carrying device, a plurality of iron wires are arranged on the carrier to be of a structure which is required by injection molding, the carrier and the pressing plates are used for being matched in a pressing manner to effectively and accurately position the whole iron wires, and the whole iron wires, the carrier and the pressing plates are fed into the injection molding machine together for injection molding operation, so that the injection molding efficiency and injection molding precision of the whole iron wires are improved; the whole equipment realizes that iron wire automatic feeding, iron wires are arranged and put as required, a plurality of iron wires are positioned by a briquetting cooperation carrier, the whole board iron wires, the carrier and the briquetting are transferred into an injection molding machine together for injection molding, the whole board iron wires are transferred along with the carrier after injection molding and are discharged after the briquetting is removed, the whole board iron wires are buried in the injection molding operation efficiently, and the feeding and discharging circulation efficiency is improved.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present utility model;

FIG. 2 is a schematic view of a wire feeding device in the present embodiment;

FIG. 3 is a schematic diagram of a first temporary storage device according to the present embodiment;

FIG. 4 is a schematic diagram of a carrier transporting apparatus according to the present embodiment;

FIG. 5 is a schematic view of a partial structure of a second clamping assembly according to the present embodiment;

FIG. 6 is a schematic diagram of a handling device according to the present embodiment;

Fig. 7 is a schematic diagram of a mobile station structure in the present embodiment;

fig. 8 is a schematic diagram of a blanking transfer apparatus in the embodiment;

the figures represent the numbers:

1 iron wire blowing device, 11 iron wires, 12 slope ramp, 13 positioning seat, 14 keep off the material pole, 15 first injection molding, 16 second injection molding, 2 first temporary storage device, 21 temporary storage board, 22 temporary storage groove, 3 carrier conveyor, 31 carrier, 32 movable plate, 33 movable table, 34 supporting seat, 35 supporting groove, 36 supporting teeth, 37 carrier teeth, 4 handling device, 41 transport straight line module, 5 second temporary storage device, 6 unloading transfer device, 61 unloading pneumatic clamping jaw, 7 first clamping component, 71 clamp plate, 72 second clamping component, 73 first clamping plate, 74 first pneumatic clamping jaw, 75 second clamping plate, 76 second pneumatic clamping jaw, 77 briquetting, 78 connecting rod, 79 briquetting groove, 8 stopper, 81 spacing groove.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely, but is apparent to those skilled in the art in view of the present utility model.

Examples:

Referring to fig. 1-8, the embodiment is an iron wire embedded whole plate feeding injection molding device, which comprises an iron wire discharging device 1, a first temporary storage device 2 arranged on the side edge of the iron wire discharging device 1 and used for pre-positioning and sequencing a plurality of iron wires 11, a carrier conveying device 3 arranged on the side edge of the first temporary storage device 2, a carrying device 4 arranged between the first temporary storage device 2 and the carrier conveying device 3 in a reciprocating manner, a second temporary storage device 5 arranged on the side edge of the carrier conveying device 3 and used for transferring and positioning a carrier 31, and a discharging and transferring device 6 used for discharging the whole plate injection molding iron wires 11 from the carrier conveying device 3; the handling device 4 comprises a first clamping assembly 7 for clamping the whole board arrangement of the iron wires 11 in the first temporary storage device 2 and limiting the whole board arrangement on the carrier 31, and a second clamping assembly 72 for clamping the pressing plate 71 and clamping the carrier 31 to press and position the whole board iron wires 11.

The iron wire discharging device 1 comprises a storage bin, an inclined ramp 12 arranged at the outlet end of the storage bin, a positioning seat 13 arranged at the outlet end of the inclined ramp 12, and a material blocking rod 14 arranged in front of the positioning seat 13 and used for pushing a single iron wire to be transited to the positioning seat 13. In this embodiment, the positioning seat 13 has an inclined groove in which the single wire 11 is positioned. The front end of positioning seat 13 is higher than the end of slope 12 for a plurality of iron wires 11 that pass through slope 12 are supported at the front end of positioning seat 13 and are piled up, keep off material pole 14 and are driven to go up and down, along with the ejector action of keeping off material pole 14, with iron wire 11 jack-up entering inclined groove one by one, wait for follow-up handling device 4 clamp to get the transfer.

The first temporary storage device 2 comprises a temporary storage plate 21, a plurality of temporary storage grooves 22 which are arranged at intervals are formed in the top of the temporary storage plate 21, the temporary storage grooves 22 are arranged in a staggered mode, the temporary storage grooves are arranged according to the structural requirements of a plurality of iron wires 11 formed by whole plate injection molding of an injection molding machine (not shown in the figure), the whole plate injection molding of the plurality of iron wires 11 is performed, first injection molding pieces 15 which are connected with the iron wires 11 are respectively arranged at two ends of the whole plate iron wires 11, and a plurality of second injection molding pieces 16 which are connected with the iron wires 11 are arranged in the middle of the whole plate iron wires 11.

The carrying device 4 comprises a carrying linear module 41, the first clamping component 7 and the second clamping component 72 are arranged on the carrying linear module 41, and the carrying linear module 41 is arranged between the first temporary storage device 2 and the carrier conveying device 3; the first clamping assembly 7 comprises a plurality of first clamping plates 73 which are driven to lift and arranged, a plurality of first pneumatic clamping jaws 74 which are arranged at the bottom of the first clamping plates 73, the plurality of first pneumatic clamping jaws 74 are arranged at intervals in a staggered mode, the plurality of first pneumatic clamping jaws 74 correspond to the arrangement positions of the plurality of iron wires 11 in the first temporary storage device 2, the plurality of first pneumatic clamping jaws 74 can synchronously clamp the plurality of iron wires 11 to the corresponding position positioning of the carriers 31 in the carrier conveying device 3, and an arrangement structure of the whole iron wires is formed rapidly.

The second clamping assembly 72 comprises a second clamping plate 75 which is driven to lift and fall, a second pneumatic clamping jaw 76 which is arranged at the bottom of the second clamping plate 75, the second pneumatic clamping jaw 76 clamps the positioning pressing plate 71, the pressing plate 71 comprises a group of pressing blocks 77 which are arranged at intervals, and a plurality of connecting rods 78 which are connected between the group of pressing blocks 77, and the second pneumatic clamping jaw 76 clamps two sides of the group of connecting rods 78, so that the transfer of the whole pressing plate 71 is realized. The bottom of briquetting 77 is provided with briquetting groove 79 that the opening is down, has a plurality of tooth grooves in the briquetting groove 79 internal distribution, and tooth groove corresponds iron wire 11 and carries out spacingly. After the first clamping assembly 7 positions the iron wires 11 on the carrier conveying device 3, the second clamping assembly 72 is used for positioning the pressing block 77 on the iron wires 11 in a pressing mode, so that the pressing block 77 and the carrier 31 form a matched assembly structure, the iron wires 11 of the whole plate are effectively positioned, and the follow-up whole plate iron wires 11, the carrier 31 and the pressing plate 71 are conveniently fed into an injection molding machine for injection molding.

The carrier transport device 3 includes a first drive rail arranged in the longitudinal direction, a moving plate 32 mounted on the first drive rail, a second drive rail provided on the moving plate 32 and arranged laterally, and a moving stage 33 mounted on the second drive rail. The moving plate 32 is driven to move along the first driving rail, and the moving stage 33 is driven to move along the second driving rail, thereby achieving the transverse and longitudinal adjustment positioning of the moving stage 33.

The moving table 33 comprises a rack, supporting seats 34 arranged on two sides of the top of the rack, and a group of supporting grooves 35 arranged inside the supporting seats 34 on two sides, supporting teeth 36 for arranging a plurality of iron wires 11 for positioning are arranged on the top of the supporting seats 34, matching carriers 31 are embedded in the supporting grooves 35, carrier teeth 37 for arranging a plurality of iron wires 11 for positioning are arranged on the top of the carriers 31, the carrier teeth 37 are corresponding to the supporting teeth 36, and the iron wires 11 are simultaneously supported and positioned on the carrier teeth 37 and the supporting teeth 36, and two ends of the iron wires 11 extend out of the supporting seats 34 on two sides respectively. Limiting blocks 8 are respectively arranged on two sides of the bottom of the pressing block 77, limiting grooves 81 are respectively arranged on two sides of the top of the carrier 31, which are located on the carrier teeth 37, of the pressing block 77, the limiting blocks 8 are correspondingly clamped with the limiting grooves 81, the pressing block grooves 79 are correspondingly arranged on the carrier teeth 37, and the pressing block 77 is clamped with the carrier 31 so as to stably press and fix the whole iron wire 11.

The whole board iron wire 11 and the carrier 31 are transferred to an injection molding machine by a manipulator (not shown in the figure) for injection molding, and a plurality of molded iron wires 11 are connected by a plurality of first injection molding pieces 15 and a plurality of second injection molding pieces 16 to form a whole board structure.

The second temporary storage device 5 comprises a fixed table, the structure of the fixed table is consistent with that of the movable table 33, the second temporary storage device 5 plays a role in transferring the carrier 31 between the carrier conveying device 3 and the injection molding machine, the manipulator is of a bidirectional transfer structure, the carrier 31 and the pressing plate 71 are conveyed to the fixed table from the movable table 33, the manipulator conveys the whole iron wires 11, the carrier 31 and the pressing plate 71 which complete injection molding operation in the injection molding machine to the movable table 33 again, and the second temporary storage device 5 improves the transfer efficiency of the carrier 31 and the iron wires 11.

The blanking transfer device 6 comprises a blanking linear module and a blanking pneumatic clamping jaw 61 which is arranged on the blanking linear module and driven to lift. The blanking pneumatic clamping jaw 61 removes the injection molded whole plate iron wire 11 from the carrier conveying device 3.

When the embodiment is applied, the iron wires 11 are discharged by the iron wire discharging device 1, the first clamping assembly 7 in the carrying device 4 carries the iron wires 11 to the first temporary storage device 2 for arrangement, the carrier conveying device 3 drives the moving table 33 to be close to the first temporary storage device 2, the first clamping assembly 7 synchronously carries a plurality of iron wires 11 from the first temporary storage device 2 to the carrier 31, the second clamping assembly 72 positions the pressing plate 71 to press the whole row of the iron wires 11 on the carrier 31, the carrier conveying device 3 drives the moving table 33 to be close to the second temporary storage device 5, the mechanical arm transfers the carrier 31, the iron wires 11 and the pressing plate 71 on the moving table 33 to the fixed table as an integral structure for waiting, the injection molding machine buries the integral structure and performs injection molding on the iron wires 11, the mechanical arm transfers the integral structure after injection molding to the moving table 33 again, and the mechanical arm bidirectional structure continuously circulates the injected integral structure and the integral structure without injection molding between the moving table 33 and the fixed table to realize continuous feeding and discharging; the second clamping assembly 72 transfers and removes the pressure plate 71 with the injection-molded integral structure, the moving platform 33 of the carrier conveying device 3 transfers and removes the carrier 31 to bear the injection-molded integral plate iron wires 11 to the blanking transfer device 6, and the blanking pneumatic clamping jaw 61 transfers and removes the integral plate iron wires 11 from the carrier 31.

In the embodiment, the iron wires 11 and the pressing plates 71 are sequentially fed through the carrying device 4, a plurality of iron wires 11 are arranged on the carrier 31 to be of a required position structure during injection molding, the carrier 31 and the pressing plates 71 are used for being in press fit to effectively and accurately position the whole iron wires 11, and the whole iron wires 11, the carrier 31 and the pressing plates 71 are fed into an injection molding machine together for injection molding operation, so that the injection molding efficiency and injection molding precision of the whole iron wires 11 are improved; the whole equipment realizes that the iron wires 11 are automatically fed, the iron wires 11 are arranged and placed according to the requirement, the pressing blocks 77 are matched with the carrier 31 to position a plurality of the iron wires 11, the whole iron wires 11, the carrier 31 and the pressing 77 are transferred into the injection molding machine together for injection molding, the whole iron wires 11 are transferred along with the carrier 31 after injection molding and the pressing blocks 77 are removed for blanking, and the whole iron wires 11 are buried in injection molding operation efficiently, so that the feeding and discharging circulation efficiency is improved.

In the description of the present specification, the term "particular embodiment" or "a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Although the embodiments of the present utility model are described above, the embodiments are only used for facilitating understanding of the present utility model, and are not intended to limit the present utility model. Any person skilled in the art can make any modification and variation in form and detail without departing from the spirit and scope of the present disclosure, but the scope of the present disclosure is to be determined by the appended claims.

Claims (10)

1. Iron wire buries whole board material loading injection moulding equipment, its characterized in that: the device comprises an iron wire discharging device, a first temporary storage device, a carrier conveying device, a carrying device, a second temporary storage device, a blanking transfer device and an injection molding machine, wherein the first temporary storage device is arranged on the side edge of the iron wire discharging device and used for pre-positioning and sequencing a plurality of iron wires; the handling device comprises a first clamping assembly for clamping the whole iron wire plates in the first temporary storage device, a second clamping assembly for clamping the pressing plates and clamping the whole iron wire plates in a matched carrier crimping and positioning mode.

2. The iron wire embedded whole plate feeding injection molding device according to claim 1, wherein: the iron wire discharging device comprises a stock bin, an inclined ramp arranged at the outlet end of the stock bin, a positioning seat arranged at the outlet end of the inclined ramp, and a material blocking rod arranged in front of the positioning seat and used for pushing a single iron wire to be transited to the positioning seat.

3. The iron wire embedded whole plate feeding injection molding device according to claim 1, wherein: the first temporary storage device comprises a temporary storage plate, and a plurality of temporary storage grooves which are distributed at intervals are formed in the top of the temporary storage plate.

4. The iron wire embedded whole plate feeding injection molding device according to claim 1, wherein: the whole board injection moulding of a plurality of iron wires, the both ends of whole board iron wire are provided with respectively and run through the first injection molding who links each iron wire, and the middle part of whole board iron wire is provided with a plurality of second injection molding that run through each iron wire.

5. The iron wire embedded whole plate feeding injection molding device according to claim 1, wherein: the handling device comprises a handling linear module, the first clamping assembly and the second clamping assembly are arranged on the handling linear module, and the handling linear module is arranged between the first temporary storage device and the carrier conveying device.

6. The iron wire embedded whole plate feeding injection molding device according to claim 1, wherein: the first clamping assembly comprises a plurality of first clamping plates which are driven to lift and a plurality of first pneumatic clamping jaws which are arranged at the bottom of the first clamping plates.

7. The iron wire embedded whole plate feeding injection molding device according to claim 1, wherein: the second clamping assembly comprises a second clamping plate which is driven to lift and a second pneumatic clamping jaw which is arranged at the bottom of the second clamping plate, and the second pneumatic clamping jaw clamps the positioning pressing plate.

8. The iron wire embedded whole plate feeding injection molding device according to claim 1, wherein: the pressing plate comprises a group of pressing blocks which are arranged at intervals and a plurality of connecting rods which are connected between the group of pressing blocks, and a pressing block groove with a downward opening is formed in the bottom of each pressing block.

9. The iron wire embedded whole plate feeding injection molding device according to claim 8, wherein: the carrier conveying device comprises a moving table, the moving table comprises a rack, supporting seats arranged on two sides of the top of the rack and a group of supporting grooves arranged in the supporting seats on two sides, supporting teeth used for arranging a plurality of iron wires for positioning are arranged on the top of the supporting seats, a carrier is embedded in the supporting grooves and matched with the carrier, carrier teeth used for arranging a plurality of iron wires for positioning are arranged on the top of the carrier, and the carrier teeth are corresponding to the supporting teeth.

10. The iron wire embedded whole plate feeding injection molding device according to claim 9, wherein: limiting blocks are respectively arranged on two sides of the bottom of the pressing block, which are located on the pressing block grooves, limiting grooves are respectively arranged on two sides of the top of the carrier, which are located on the carrier teeth, the limiting blocks are correspondingly clamped with the limiting grooves, and the pressing block grooves are correspondingly arranged on the carrier teeth.