CN209971316U

CN209971316U - Pre-buried metal mesh feeding system for moulding plastics of injection molding machine

Info

Publication number: CN209971316U
Application number: CN201920778209.9U
Authority: CN
Inventors: 王双荣
Original assignee: Suzhou Shuan Rong Rubber And Plastic Co Ltd
Current assignee: Suzhou Shuan Rong Rubber And Plastic Co Ltd
Priority date: 2019-05-28
Filing date: 2019-05-28
Publication date: 2020-01-21
Anticipated expiration: 2029-05-28

Abstract

The utility model relates to a pre-buried for moulding plastics metal mesh feeding system of injection molding machine, the feeding system is including the feed mechanism who continuously supplies the metal mesh in proper order, right the metal mesh of feed mechanism supply detects and will the metal mesh is according to the detection correction mechanism that the set direction was put, general detect the metal mesh material of correction mechanism putting extremely feed mechanism, control in the die cavity of injection molding machine feed mechanism, detection correction mechanism and feed mechanism collaborative work's control system. The utility model discloses a feeding system structure is very simple compact, and design and cost of manufacture are lower relatively. In addition, the metal net at the aligned position is directly fed into the die cavity of the injection molding machine through the feeding mechanism, so that the feeding speed and efficiency are greatly improved.

Description

Pre-buried metal mesh feeding system for moulding plastics of injection molding machine

Technical Field

The utility model relates to a pre-buried metal mesh feeding system for moulding plastics of injection molding machine.

Background

The hair drier is mainly used for drying and shaping hair, but also can be used for local drying, heating and physical therapy in laboratories, physical therapy rooms, industrial production, art designing and the like, which is composed of a group of electric heating wires and a high-speed small fan and directly drives a rotor to drive a fan blade to rotate by a motor, when the fan blade rotates, air is sucked from an air inlet, the centrifugal airflow formed by the method is blown out by the front nozzle of the air duct, the air inlet net of the hair dryer is one of the important parts of the hair dryer, the air inlet net is arranged at an air inlet, the air inlet net is usually formed by an annular metal net, however, the metal net is very thin and cannot be self-supported, usually, the metal net cannot be independently arranged at the air inlet of a blower, and the air inlet net is generally formed by fixing the air inlet net on an annular plastic supporting cylinder matched with the air inlet net in shape for combination use, the metal net is usually formed by injection molding through an injection molding machine and a plastic supporting cylinder in an integrated injection molding mode in a pre-embedded mode. This just need place the metal mesh in the mould cavity of injection molding machine before moulding plastics and wait for the injection molding machine to mould plastics, this metal mesh all places its mould cavity of injection molding machine into through the mode of artifical manual placing, because of the metal mesh utensil direction of placing has the restriction, need aim at the corresponding position in the mould cavity with opening accuracy on it, this just needs artifical inspection and the position of putting, not only it is slow to place speed, artifical intensity of labour is also very big, and the operating personnel who is in fatigue state after long-time operation then just easily makes a mistake the position, cause the product of moulding plastics to scrap, the emergence during the condition of scrapping causes economic cost loss.

Disclosure of Invention

The utility model aims to solve the technical problem that overcome prior art not enough, provide a pre-buried for moulding plastics metal mesh feeding system of injection molding machine.

In order to solve the technical problem, the utility model discloses the technical scheme who takes as follows:

the feeding system comprises a feeding mechanism for continuously supplying metal nets in sequence, a detection and correction mechanism for detecting the metal nets supplied by the feeding mechanism and placing the metal nets in a set direction, a feeding mechanism for feeding the metal nets placed by the detection and correction mechanism into a mold cavity of the injection molding machine, and a control system for controlling the feeding mechanism, the detection and correction mechanism and the feeding mechanism to work cooperatively.

Preferably, the detection correction mechanism includes a grasping unit capable of grasping the metal mesh from the feeding mechanism, and a detector that detects the metal mesh grasped by the grasping unit. The detector is a video camera detector, detects a bayonet on the metal net, and when the bayonet is over against the camera, the metal net is regulated to a correct and set direction in a rotating mode, so that the grabbing unit can put the metal net down to a third station.

Preferably, each metal net at least has a first station located on the feeding mechanism and used for being grabbed by the grabbing unit, a second station used for being detected by the detector, and a third station located on the detection and correction mechanism and used for being picked up by the feeding mechanism.

Preferably, the third station is located below the second station.

Preferably, there are two of said third stations.

Preferably, the grabbing unit comprises a grabbing head which is arranged around the axis of the grabbing unit in a rotating mode, and a linkage device which controls the grabbing head to move in the vertical, horizontal and front-back directions and rotate around the axis of the grabbing unit.

Preferably, the detection and correction mechanism further comprises a placing table, and when the metal net is located at the third station, the metal net is located on a table top of the placing table.

Preferably, the feeding system further comprises a collecting conveyor belt for collecting the rejected expanded metal. When the detection mechanism detects that the metal net is unqualified, the grabbing unit places the metal net on the collecting conveyor belt.

Preferably, the feeding mechanism comprises a supporting sliding beam arranged on the injection molding machine, a supporting rod arranged on the supporting sliding beam in a sliding manner, a first driver for driving the supporting rod to slide, a sliding rod sliding along the vertical direction, a second driver for driving the sliding rod to slide vertically, and a clamping jaw arranged at the lower end part of the sliding rod, wherein the second driver is arranged along the sliding rod in a sliding manner.

Preferably, the feed mechanism comprises a feed channel, and the first station is located at an end of the feed channel. The inlet end of the feeding channel can adopt manual feeding or vibration plate feeding.

Due to the implementation of the above technical scheme, compared with the prior art, the utility model have the following advantage:

the utility model discloses a pre-buried metal mesh feeding system for moulding plastics of injection molding machine rotates the correction and looks for established correct position to the metal mesh through automatic mode to avoid manual operation to rely on the mode of visual observation to fix a position the metal mesh, avoided the problem that intensity of labour is high that manual operation brought, and avoid the higher problem of detection error rate that manual detection material loading brought. The utility model discloses a feeding system structure is very simple compact, and design and cost of manufacture are lower relatively. In addition, the metal net at the aligned position is directly fed into the die cavity of the injection molding machine through the feeding mechanism, so that the feeding speed and efficiency are greatly improved.

Drawings

Fig. 1 is a schematic perspective view of the feeding system of the present invention (including an injection molding machine);

FIG. 2 is a schematic perspective view of the feeding system of the present invention (without an injection molding machine);

wherein: 11. a feed channel; 12. a detector; 13. a linkage device; 14. a gripper head; 15. a placing table; 16. collecting a conveying belt; 21. a support beam; 22. a support bar; 23. a first driver; 24. a slide bar; 25. a second driver; 26. a clamping jaw; 100. a metal mesh; 30. and (5) an injection molding machine.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 and 2, a feeding system of a metal net 100 for pre-embedded injection molding of an injection molding machine comprises a feeding mechanism for continuously supplying the metal net 100, a detection and correction mechanism for detecting the metal net 100 supplied by the feeding mechanism and placing the metal net 100 in a predetermined direction, a feeding mechanism for feeding the metal net 100 placed in the detection and correction mechanism into a mold cavity of the injection molding machine 30, and a control system for controlling the feeding mechanism, the detection and correction mechanism and the feeding mechanism to work cooperatively.

In this example, each metal mesh 100 has at least a first station located on the feeding mechanism for gripping by the gripping unit, a second station for detection by the detector 12, and a third station located on the detection and correction mechanism for receiving by the feeding mechanism; the third station is positioned below the second station, and the number of the third stations is two. The injection molding machine 30 simultaneously injects two products for two-cavity injection, and thus needs to simultaneously supply two metal nets 100 thereto. That is, the feeding mechanism grabs two metal nets 100 to the mold cavity of the injection molding machine 30 at a time, which greatly improves the efficiency.

Specifically, the detection and correction mechanism comprises a grabbing unit which can grab the metal net 100 from the feeding mechanism, a detector 12 which detects the metal net 100 grabbed by the grabbing unit, and a placing table 15 on which the metal net 100 is placed, wherein the grabbing unit comprises a grabbing head 14 which is arranged in a rotating way around the axis of the grabbing unit, and a linkage device 13 which controls the grabbing head 14 to move in the vertical, horizontal and front-back directions and rotate around the axis of the grabbing unit, the grabbing unit consists of grabbing equipment with four-axis linkage, the detector 12 is a video camera detector 12, a bayonet is arranged on the metal net 100, the detector 12 detects the bayonet on the metal net 100, when the bayonet is over against the camera, it means that the metal net 100 rotates and adjusts to the correct and predetermined direction, so that the gripping unit can lower it to the third station, i.e. the wire 100 is placed on the table top of the placing table 15 (the two third stations are located at the two ends of the placing table 15, respectively). Note: in the detection process, the grabbing head 14 drives the metal net 100 to rotate slowly and continuously, and the detector 12 performs real-time detection on the metal net 100 continuously while the metal net rotates until the bayonet on the metal net 100 is over against the detector 12.

Further, the feeding mechanism comprises a supporting slide beam 21 arranged on the injection molding machine 30, a supporting rod 22 arranged on the supporting slide beam 21 in a sliding manner, a first driver 23 driving the supporting rod 22 to slide, a slide rod 24 sliding along the vertical direction, a second driver 25 driving the slide rod 24 to slide vertically, and a clamping jaw 26 arranged at the lower end part of the slide rod 24, wherein the second driver 25 is arranged along the slide rod 24 in a sliding manner. The clamping jaws 26 have two jaws capable of simultaneously gripping two metal meshes 100 into the cavity of the injection molding machine 30. In addition, the feeding mechanism comprises a feeding channel 11, and the first station is located at the end of the feeding channel 11. The inlet end of the feeding channel 11 can be discharged manually or by a vibration plate.

Furthermore, the feeding system comprises a collecting conveyor belt 16 for collecting the rejected wire netting 100. When the detecting mechanism detects that the metal mesh 100 is not qualified, the gripping unit places the metal mesh 100 on the collecting conveyor belt 16.

The utility model discloses a condition is as follows when the pre-buried metal mesh 100 feeding system for moulding plastics of injection molding machine 30 uses: the batches of expanded metal 100 are successively conveyed from the feed channel 11 to the end of the feed channel 11 (first station), the wire 100 is then gripped by the gripping head 14 of the gripping unit from the first station to a second station, where the wire 100 is suspended, its height is exactly aligned with the detector 12, and after the wire 100 reaches the second station, the linkage 13 causes the head 14 to start rotating slowly, and receives the continuous detection of the video camera detector 12 until the bayonet on the metal net 100 is over against the detector 12, the grabbing head 14 drives the metal nets 100 to move downwards to a third station, firstly, one metal net 100 is driven to the third station close to one side of the feeding channel 11, then, the other detected and corrected metal net 100 is driven to the other third station, until the two metal nets 100 are detected, corrected and correctly placed, and then, two clamping jaws 26 of the feeding mechanism grab the two metal nets 100 into a mold cavity of the injection molding machine 30 at the same time; in addition, if the video detector 12 finds that the metal mesh 100 is defective due to breakage or the like during the detection, the grabbing unit directly sends the metal mesh 100 at the second station to the collecting conveyor 16, and the defective products are not allowed to flow into the production line.

The third station is located the second station below, then the unit of grabbing snatchs and snatchs metal mesh 100 from first station after, need not to send it into special slewing mechanism and rotate metal mesh 100 and detect, but just can rotate metal mesh 100 and accept the detection directly through snatching head 14, and this improves detection rate, has also avoided the high expenditure of the cost of manufacture that causes because of too much structural design, greatly reduced enterprise manufacturing cost.

To sum up, the utility model discloses a pre-buried metal mesh feeding system for moulding plastics of injection molding machine rotates the correction and looks for established correct position to the metal mesh through automatic mode to avoid manual operation to rely on the mode of visual observation to fix a position the metal mesh, avoided the problem that intensity of labour is high that manual operation brought, and avoid the higher problem of detection error rate that manual detection material loading brought. In addition, the metal net at the aligned position is directly fed into the die cavity of the injection molding machine through the feeding mechanism, so that the feeding speed and efficiency are greatly improved.

The present invention has been described in detail, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and to implement the same, and the protection scope of the present invention should not be limited thereby, and all equivalent changes or modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims

1. The utility model provides a pre-buried for moulding plastics metal mesh feeding system of injection molding machine which characterized in that: the feeding system comprises a feeding mechanism for continuously supplying metal nets in sequence, a detection and correction mechanism for detecting the metal nets supplied by the feeding mechanism and placing the metal nets in a set direction, a feeding mechanism for feeding the metal nets placed by the detection and correction mechanism into a mold cavity of the injection molding machine, and a control system for controlling the feeding mechanism, the detection and correction mechanism and the feeding mechanism to work cooperatively.

2. The metal net feeding system for the pre-embedded injection molding of the injection molding machine according to claim 1, characterized in that: the detection correction mechanism comprises a grabbing unit capable of grabbing the metal net from the feeding mechanism and a detector for detecting the metal net grabbed by the grabbing unit.

3. The metal net feeding system for the pre-embedded injection molding of the injection molding machine according to claim 1, characterized in that: each metal net at least comprises a first station which is positioned on the feeding mechanism and is used for being grabbed by the grabbing unit, a second station which is used for being detected by the detector, and a third station which is positioned on the detection and correction mechanism and is used for being picked up by the feeding mechanism.

4. The metal net feeding system for pre-embedded injection molding of the injection molding machine according to claim 3, characterized in that: the third station is located below the second station.

5. The metal net feeding system for pre-embedded injection molding of the injection molding machine according to claim 3, characterized in that: the third station has two.

6. The metal net feeding system for the pre-embedded injection molding of the injection molding machine according to claim 2, characterized in that: the grabbing unit comprises a grabbing head which is arranged around the axis of the grabbing unit in a rotating mode, and a linkage device which controls the grabbing head to move in the vertical, horizontal and front-back directions and rotate around the axis of the grabbing unit.

7. The metal net feeding system for pre-embedded injection molding of the injection molding machine according to claim 3, characterized in that: the detection and correction mechanism further comprises a placing table, and when the metal net is located at the third station, the metal net is located on the table top of the placing table.

8. The metal net feeding system for the pre-embedded injection molding of the injection molding machine according to claim 1, characterized in that: the feeding system further comprises a collecting conveyer belt for collecting unqualified metal meshes.

9. The metal net feeding system for the pre-embedded injection molding of the injection molding machine according to claim 1, characterized in that: the feeding mechanism comprises a supporting sliding beam arranged on the injection molding machine, a supporting rod arranged on the supporting sliding beam in a sliding mode, a first driver for driving the supporting rod to slide, a sliding rod sliding along the vertical direction, a second driver for driving the sliding rod to slide vertically, and a clamping jaw arranged at the lower end of the sliding rod, wherein the second driver is arranged along the sliding rod in a sliding mode.

10. The metal net feeding system for pre-embedded injection molding of the injection molding machine according to claim 3, characterized in that: the feeding mechanism comprises a feeding channel, and the first station is located at the tail end of the feeding channel.