CN205394986U - Injection mold terminal automatic feeding machine - Google Patents

Abstract

The utility model discloses an injection mold terminal automatic feeding machine, including the frame, be equipped with mould plastics workstation and mounting bracket in the frame, be equipped with terminal feeding mechanism and support frame on the mounting bracket, be equipped with terminal feed mechanism on the support frame and be used for absorbing the terminal of transferring the workstation of moulding plastics with the terminal on the terminal feed mechanism and get material transfer mechanism, terminal feeding mechanism's discharge end connecting terminal feed mechanism, the top that material transfer mechanism is located terminal feed mechanism is got to the terminal, is equipped with terminal feed mechanism 0 on the terminal feed mechanism. The utility model discloses can realize that the automatic of terminal loads, improve formation efficiency, practice thrift the cost of labor.

Description

Injection mold terminal automatic charging machine

Technical field

This utility model relates to terminal feeder equipment technical field, more specifically, relates to a kind of injection mold terminal automatic charging machine.

Background technology

The device such as adapter, relay is equipped with PCN terminal.At present, in the production technology that terminal is carried out injection moulding, it is still necessary to manually terminal being put into mould, injection moulding is also required to manually take out product after completing.In whole process, due to the intervention of manual type so that flow operations production efficiency is low, adds additional cost of labor simultaneously, waste time and energy, there is potential safety hazard in operation, cost of labor is high.

Utility model content

The purpose of this utility model is in that to overcome drawbacks described above of the prior art, it is provided that a kind of injection mold terminal automatic charging machine improving production efficiency, saving cost of labor.

For achieving the above object, the technical scheme that this utility model provides is as follows: a kind of injection mold terminal automatic charging machine, including frame, described frame is provided with injection moulding workbench and installing rack, described installing rack is provided with terminal feed mechanism and bracing frame, support frame as described above is provided with terminal feeding distribution mechanism and for the terminal on terminal feeding distribution mechanism is drawn the terminal feeding transfer mechanism being transplanted on described injection moulding workbench, the discharge end of described terminal feed mechanism connects described terminal feeding distribution mechanism, described terminal feeding transfer mechanism is positioned at the top of described terminal feeding distribution mechanism, described terminal feeding distribution mechanism is provided with terminal test device.

As preferably, described terminal feed mechanism is a terminal vibrating disk.

nullAs preferably，Described terminal feeding distribution mechanism includes material distributing rest、Sub-material cylinder、Guide post and sub-material transfer block，Described sub-material cylinder and described guide post are respectively installed on described material distributing rest，Described sub-material transfer block is installed on described guide post，Described sub-material cylinder and described sub-material transfer block are in transmission connection，And drive described sub-material transfer block to move along the axial direction of described guide post，The position that described material distributing rest is connected with the discharge end of terminal feed mechanism is provided with for stopping that the terminal sub-material door of the terminal come carried by terminal feed mechanism，Described terminal sub-material door is with back-moving spring，Described terminal sub-material door offers inserting hole，Described sub-material transfer block is provided with tongue piece block towards one end of terminal sub-material door，The hole wall of the inserting hole of described terminal sub-material door and described tongue piece block are respectively equipped with the inclined-plane worked in coordination，Described terminal sub-material door is made to move down after the inserting hole of the described tongue piece block described terminal sub-material door of insertion.

As preferably, described material distributing rest is provided with the first elastic buffering mechanism for sub-material transfer block carries out buffering.

As preferably, described terminal feeding transfer mechanism includes feeding mounting seat, horizontal slide rail, laterally transfer cylinder, movable plate, longitudinal cylinder, longitudinal slide rail, suction nozzle mounting seat and suction nozzle, described horizontal slide rail and described laterally transfer cylinder are respectively installed in described feeding mounting seat, described movable plate is slidably connected at described horizontal slide rail, described laterally transfer cylinder is in transmission connection with described movable plate, and drive described movable plate to move along the length direction of described horizontal slide rail, described longitudinal cylinder and described longitudinal slide rail are respectively installed on described movable plate, described suction nozzle mounting seat is slidably connected at described longitudinal slide rail, described suction nozzle is connect by described suction nozzle mounting seat and described longitudinal cylinders.

As preferably, second elastic buffering mechanism being respectively arranged at two ends with for movable plate being carried out buffering of described feeding mounting seat.

As preferably, described terminal test device is terminal test optical fiber.

Compared with prior art, the beneficial effects of the utility model are in that:

Frame of the present utility model is provided with injection moulding workbench and installing rack, installing rack is provided with terminal feed mechanism and bracing frame, bracing frame is provided with terminal feeding distribution mechanism and terminal feeding transfer mechanism, terminal feeding distribution mechanism is provided with terminal test device, after terminal test device detects that material is full, terminal feeding distribution mechanism can will carry out sub-material from the terminal feed mechanism terminal that comes of conveying, and drawn by the terminal on terminal feeding distribution mechanism by terminal feeding transfer mechanism and be transplanted on injection moulding workbench and carry out terminal injection operation.This utility model is capable of the automatization of terminal and loads, and improves formation efficiency, has saved cost of labor.

Accompanying drawing explanation

Fig. 1 is the structural representation of injection mold terminal automatic charging machine described in the utility model；

Fig. 2 is terminal feeding distribution mechanism described in the utility model and the structural representation of terminal feeding transfer mechanism；

Fig. 3 is the side view of terminal feeding distribution mechanism described in the utility model；

Fig. 4 is the structural representation of terminal sub-material door described in the utility model.

Below in conjunction with drawings and Examples, injection mold terminal automatic charging machine described in the utility model is described further.

Detailed description of the invention

The following is the preferred example of injection mold terminal automatic charging machine described in the utility model, therefore do not limit protection domain of the present utility model.

Refer to Fig. 1 and Fig. 2, there is shown a kind of injection mold terminal automatic charging machine, including frame 1, frame 1 is provided with injection moulding workbench 2 and installing rack 3, installing rack 3 is provided with terminal feed mechanism 4 and bracing frame 5, bracing frame 5 is provided with terminal feeding distribution mechanism 6 and for the terminal on terminal feeding distribution mechanism 6 is drawn the terminal feeding transfer mechanism 7 being transplanted on injection moulding workbench 2, the discharge end of terminal feed mechanism 4 connects terminal feeding distribution mechanism 6, terminal feeding transfer mechanism 7 is positioned at the top of terminal feeding distribution mechanism 6, and terminal feeding distribution mechanism 6 is provided with terminal test device 8.Preferably, this terminal test device 8 is terminal test optical fiber.Structure and the principle of each mechanism above-mentioned will be described in detail below.

As it is shown in figure 1, in the present embodiment, terminal feed mechanism 4 is preferably arranged to a terminal vibrating disk.Certainly, according to actual needs, it is also possible to be set to other feeder equipments.

nullAs shown in Figures 2 and 3，Terminal feeding distribution mechanism 6 includes material distributing rest 61、Sub-material cylinder 62、Guide post 63 and sub-material transfer block 64，Material distributing rest 61 is installed on bracing frame 5，Terminal test optical fiber、Sub-material cylinder 62 and two guide posts 63 are respectively installed on material distributing rest 61，Sub-material transfer block 64 is installed on guide post 63，Sub-material cylinder 62 is positioned at the lower section of sub-material transfer block 64，Sub-material cylinder 62 and sub-material transfer block 64 are in transmission connection，And drive sub-material transfer block 64 to move back and forth along the axial direction of guide post 63，The position that material distributing rest 61 is connected with the discharge end of terminal vibrating disk is provided with for stopping that the terminal sub-material door 65 of the terminal come carried by terminal feed mechanism 4，Terminal sub-material door 65 is with back-moving spring，Terminal sub-material door 65 offers inserting hole 66，Sub-material transfer block 64 is provided with tongue piece block 67 towards one end of terminal sub-material door 65，The hole wall of the inserting hole 66 of terminal sub-material door 65 and tongue piece block 67 are respectively equipped with the inclined-plane worked in coordination.When initial state, the tongue piece block 67 of sub-material transfer block 64 inserts in the inserting hole 66 of terminal sub-material door 65, and under the effect on inclined-plane, terminal sub-material door 65 is depressed by tongue piece block 67, now the terminal of terminal vibrating disk can smooth delivery of power on sub-material transfer block 64.

Preferably, material distributing rest 61 is provided with the first elastic buffering mechanism 68 for sub-material transfer block 64 carries out buffering, it can prevent sub-material cylinder 62 from promoting sub-material transfer block 64 to strike material distributing rest 61, the service life of the equipment extended, it also is able to prevent the terminal generation off normal of delivery in sub-material transfer block 64 simultaneously, affects the feeding operation of terminal feeding transfer mechanism 7.

When terminal is transported to sub-material transfer block 64 from the discharge end of terminal vibrating disk, terminal test optical fiber can detect whether sub-material transfer block 64 fills material, after full material, sub-material cylinder 62 drives sub-material transfer block 64 to move to the underface of suction nozzle of terminal feeding transfer mechanism 7 along the axial direction of guide post 63, and while sub-material transfer block 64 moves, the tongue piece block 67 of sub-material transfer block 64 leaves the inserting hole 66 of terminal sub-material door 65, terminal sub-material door 65 moves up under the effect of back-moving spring, stops the follow-up terminal transported out from the discharge end of terminal vibrating disk.

As shown in Figure 2, terminal feeding transfer mechanism 7 includes feeding mounting seat 71, horizontal slide rail 72, laterally transfer cylinder 73, movable plate 74, longitudinal cylinder 75, longitudinal slide rail 76, suction nozzle mounting seat 77 and suction nozzle 78, horizontal slide rail 72 and laterally transfer cylinder 73 are respectively installed in feeding mounting seat 71, movable plate 74 is slidably connected at horizontal slide rail 72, laterally transfer cylinder 73 is in transmission connection with movable plate 74, and drive the length direction of movable plate 74 transversely slide rail 72 to move, longitudinal cylinder 75 and longitudinal slide rail 76 are respectively installed on movable plate 74, suction nozzle mounting seat 77 is slidably connected at longitudinal slide rail 76, suction nozzle 78 is connected with longitudinal cylinder 75 by suction nozzle mounting seat 77.

It is also preferred that the left second elastic buffering mechanism 79 being respectively arranged at two ends with for movable plate 74 being carried out buffering of feeding mounting seat 71.Second elastic buffering mechanism 79 is identical with the structure of the first elastic buffering mechanism 68.

When sub-material transfer block 64 moves to the underface of suction nozzle 78, longitudinal cylinder 75 drives the suction nozzle 78 in suction nozzle mounting seat 77 to move down absorption terminal, longitudinal cylinder 75 reset afterwards is taken suction nozzle 78 to and is moved up, simultaneously under laterally transfer cylinder 73 drives, suction nozzle 78 is drawn terminal and is moved to and carry out follow-up terminal injection operation on injection moulding workbench 2.

In sum, this utility model is capable of the automatization of terminal and loads, and improves formation efficiency, has saved cost of labor.

Above-described embodiment is this utility model preferably embodiment; but embodiment of the present utility model is also not restricted to the described embodiments; other any without departing from the change made under spirit of the present utility model and principle, modification, replacement, combination, simplification; all should be the substitute mode of equivalence, be included within protection domain of the present utility model.

Claims (7)

1. an injection mold terminal automatic charging machine, including frame (1), it is characterized in that: described frame (1) is provided with injection moulding workbench (2) and installing rack (3), described installing rack (3) is provided with terminal feed mechanism (4) and bracing frame (5), support frame as described above (5) is provided with terminal feeding distribution mechanism (6) and for the terminal on terminal feeding distribution mechanism (6) is drawn terminal feeding transfer mechanism (7) being transplanted on described injection moulding workbench (2), the discharge end of described terminal feed mechanism (4) connects described terminal feeding distribution mechanism (6), described terminal feeding transfer mechanism (7) is positioned at the top of described terminal feeding distribution mechanism (6), described terminal feeding distribution mechanism (6) is provided with terminal test device (8).

2. injection mold terminal automatic charging machine according to claim 1, it is characterised in that: described terminal feed mechanism (4) is a terminal vibrating disk.

null3. injection mold terminal automatic charging machine according to claim 1，It is characterized in that: described terminal feeding distribution mechanism (6) includes material distributing rest (61)、Sub-material cylinder (62)、Guide post (63) and sub-material transfer block (64)，Described sub-material cylinder (62) and described guide post (63) are respectively installed on described material distributing rest (61)，Described sub-material transfer block (64) is installed on described guide post (63)，Described sub-material cylinder (62) and described sub-material transfer block (64) are in transmission connection，And drive described sub-material transfer block (64) to move along the axial direction of described guide post (63)，The position that described material distributing rest (61) is connected with the discharge end of terminal feed mechanism (4) is provided with for stopping that terminal sub-material door (65) of the terminal come carried by terminal feed mechanism (4)，Described terminal sub-material door (65) is with back-moving spring，Described terminal sub-material door (65) offers inserting hole (66)，Described sub-material transfer block (64) is provided with tongue piece block (67) towards one end of terminal sub-material door (65)，The hole wall of the inserting hole (66) of described terminal sub-material door (65) and described tongue piece block (67) are respectively equipped with the inclined-plane worked in coordination，Described tongue piece block (67) makes described terminal sub-material door (65) move down after inserting the inserting hole (66) of described terminal sub-material door (65).

4. injection mold terminal automatic charging machine according to claim 3, it is characterised in that: described material distributing rest (61) is provided with the first elastic buffering mechanism (68) for sub-material transfer block (64) carries out buffering.

null5. injection mold terminal automatic charging machine according to claim 1，It is characterized in that: described terminal feeding transfer mechanism (7) includes feeding mounting seat (71)、Horizontal slide rail (72)、Laterally transfer cylinder (73)、Movable plate (74)、Longitudinal cylinder (75)、Longitudinal slide rail (76)、Suction nozzle mounting seat (77) and suction nozzle (78)，Described horizontal slide rail (72) and described transverse direction are transferred cylinder (73) and are respectively installed on described feeding mounting seat (71)，Described movable plate (74) is slidably connected at described horizontal slide rail (72)，Described transverse direction is transferred cylinder (73) and is in transmission connection with described movable plate (74)，And drive described movable plate (74) to move along the length direction of described horizontal slide rail (72)，Described longitudinal cylinder (75) and described longitudinal slide rail (76) are respectively installed on described movable plate (74)，Described suction nozzle mounting seat (77) is slidably connected at described longitudinal slide rail (76)，Described suction nozzle (78) is connected with described longitudinal cylinder (75) by described suction nozzle mounting seat (77).

6. injection mold terminal automatic charging machine according to claim 5, it is characterised in that: second elastic buffering mechanism (79) being respectively arranged at two ends with for movable plate (74) being carried out buffering of described feeding mounting seat (71).

7. injection mold terminal automatic charging machine according to claim 1, it is characterised in that: described terminal test device (8) is terminal test optical fiber.