CN214521754U - Automatic get material withstand voltage test equipment of moulding plastics - Google Patents

Abstract

The utility model discloses an automatic material taking and injection molding pressure-resistant testing device, which comprises a material taking mechanism, an injection molding mechanism, a pressure-resistant testing mechanism, a detecting mechanism and a rack; the material taking mechanism comprises a first electric sliding table and a material taking plate; the injection molding mechanism comprises an injection molding frame, an injection molding upper die and an injection molding lower die; the pressure-resistant testing mechanism comprises a pressure-resistant cylinder, a pressure-resistant plate and a pressure-resistant testing platform; the detection mechanism comprises a detection frame, a driving motor, a rotating strip, a transverse moving plate, a longitudinal moving plate and a detection table, wherein a front camera and a rear camera are respectively arranged in front of the detection table and behind the detection table. This automatic get material withstand voltage test equipment of moulding plastics carries out the material automatic back of moulding plastics, carries out withstand voltage test again, and outside detecting injection moulding again discharging equipment whether meet the requirements at last, full-automatic process need not artifical the participation, and the material resources of using manpower sparingly have improved the efficiency of the injection moulding production process of material.

Description

Automatic get material withstand voltage test equipment of moulding plastics

Technical Field

The utility model relates to an injection moulding device's technical field especially relates to an automatic get material withstand voltage test equipment of moulding plastics.

Background

Current injection moulding all is that the equipment of single process is accomplished, and whether pay-off or subsequent detection all are artifical to be handled, leads to the front end process to need artifical manual material loading, and the rear end process needs the manual work to use naked eye to detect the condition of moulding plastics of observing, and the efficiency of whole flow is extremely low, simultaneously because unable in time rejection when artificial error leads to the condition of defective products to appear in the production process, influences the quality situation of product in batches.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an aim at: the utility model provides an automatic get material withstand voltage test equipment of moulding plastics for solve the problem that prior art exists.

To achieve the purpose, the utility model adopts the following technical proposal:

an automatic material taking and injection molding pressure-resistant testing device comprises a material taking mechanism, an injection molding mechanism, a pressure-resistant testing mechanism, a detecting mechanism and a rack;

the material taking mechanism comprises a first electric sliding table and a material taking plate, the first electric sliding table is positioned on one side of the rack, the material taking plate is installed on the moving end of the first electric sliding table, and a jig is placed on the material taking plate;

the injection molding mechanism comprises an injection molding frame, an injection molding upper die and an injection molding lower die, wherein an injection molding cylinder is installed at the upper end of the injection molding frame, the injection molding upper die is connected with the driving end of the injection molding cylinder, and the injection molding lower die is positioned right below the injection molding upper die;

the pressure-resistant testing mechanism comprises a pressure-resistant cylinder, a pressure-resistant plate and a pressure-resistant testing platform, the pressure-resistant testing platform is arranged on the rack, the pressure-resistant cylinder is positioned above the pressure-resistant testing platform, the pressure-resistant plate is arranged on a driving end of the pressure-resistant cylinder, and the pressure-resistant plate is pressed on the pressure-resistant testing platform;

the detection mechanism comprises a detection frame, a driving motor, a rotating strip, a transverse moving plate, a longitudinal moving plate and a detection platform, the detection frame is provided with an arc-shaped movable groove, the driving motor is arranged at the rear part of the detection frame, the driving end of the driving motor passes through the detection frame and then is connected with one end of the rotating strip, the other end of the rotating strip is provided with a pulley, the pulley slides in the arc-shaped movable groove, the pulley is connected with a connecting shaft, the upper end of the longitudinal moving plate is hinged on the connecting shaft, the longitudinal moving plate slides on the transverse moving plate along the vertical direction, the transverse moving plate slides on the detection frame along the horizontal direction, the lower end of the longitudinal moving plate is provided with a suction nozzle, and a front camera and a rear camera are respectively arranged in front of the detection platform and behind the detection platform.

As a preferred technical scheme, an injection molding slide rail is arranged below the injection molding frame and fixed on the rack, and an injection molding slide block is fixed at the lower end of the injection molding lower die and is connected to the injection molding slide rail in a sliding manner.

As a preferred technical scheme, install the electronic slip table of second in the frame, be provided with the test cylinder on the removal end of the electronic slip table of second, the test cylinder level is placed, withstand voltage testboard is connected on the drive end of test cylinder.

As a preferred technical scheme, a third electric sliding table is further arranged on the rack, and the pressure-resistant cylinder is installed at the moving end of the third electric sliding table.

As a preferred technical scheme, a vertical slide rail is fixed at the rear end of the longitudinal moving plate, a vertical slide block is fixed at the front end of the transverse moving plate, and the vertical slide block is connected with the vertical slide rail in a sliding manner.

As a preferable technical scheme, a horizontal sliding block is fixed at the rear end of the transverse moving plate, a horizontal sliding rail is fixed at the front end of the detection frame, and the horizontal sliding rail is connected with the horizontal sliding block in a sliding manner.

As a preferred technical scheme, the suction nozzle comprises a front suction nozzle and a rear suction nozzle, a suction plate is fixed at the lower end of the longitudinal moving plate, and the front suction nozzle and the rear suction nozzle are respectively fixed at two ends of the suction plate.

As a preferred technical scheme, a discharging air cylinder is fixed on the rack, a discharging frame is connected to the driving end of the discharging air cylinder, and a defective product slide way and a non-defective product slide way are fixed on the discharging frame.

As a preferred technical scheme, a defective product storage box is arranged below the defective product slide way, and a non-defective product storage box is arranged below the non-defective product slide way.

The utility model has the advantages that: the utility model provides an automatic get material withstand voltage test equipment of moulding plastics, this automatic get material withstand voltage test equipment of moulding plastics carries out automatic back of moulding plastics with the material, carries out withstand voltage test again, detects at last whether injection moulding accords with the requirement and outside the discharge apparatus, full-automatic process need not artifical the participation, and the material resources of using manpower sparingly have improved the efficiency of the injection moulding production process of material.

Drawings

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

Fig. 1 is a schematic overall structure diagram of an automatic material taking and injection molding pressure resistance testing apparatus according to an embodiment;

FIG. 2 is a schematic structural diagram of an injection molding mechanism according to an embodiment;

FIG. 3 is a schematic structural diagram of a withstand voltage testing mechanism according to an embodiment;

FIG. 4 is a schematic view of a first structure of the detecting mechanism according to the embodiment;

fig. 5 is a second structural schematic diagram of the detection mechanism according to the embodiment.

In fig. 1 to 5:

1. a material taking mechanism; 2. an injection molding mechanism; 3. a withstand voltage testing mechanism; 4. a detection mechanism; 5. a frame; 6. a first electric sliding table; 7. taking a material plate; 8. a jig; 9. an injection molding frame; 10. injection molding an upper die; 11. injection molding a lower die; 12. injection molding of a cylinder; 13. a pressure-resistant cylinder; 14. a pressure-resistant plate; 15. a withstand voltage test bench; 16. a detection frame; 17. a drive motor; 18. rotating the strip; 19. transversely moving the plate; 20. longitudinally moving the plate; 21. a detection table; 22. an arc-shaped movable groove; 23. a connecting shaft; 24. a front camera; 25. a rear camera; 26. injection molding the slide rail; 27. injection molding a sliding block; 28. a second electric sliding table; 29. testing the cylinder; 30. a third electric sliding table; 31. a vertical slide rail; 32. a vertical slide block; 33. a horizontal slider; 34. a horizontal slide rail; 35. a front suction nozzle; 36. a rear suction nozzle; 37. sucking a plate; 38. a discharging cylinder; 39. a discharging frame; 40. a defective product slide way; 41. a good product slideway; 42. a defective product storage box; 43. the yields receiver.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

As shown in fig. 1 to fig. 5, in this embodiment, an automatic material taking and injection molding pressure-resistant testing apparatus includes a material taking mechanism 1, an injection molding mechanism 2, a pressure-resistant testing mechanism 3, a detecting mechanism 4, and a rack 5.

The material taking mechanism 1 comprises a first electric sliding table 6 and a material taking plate 7, the first electric sliding table 6 is located on one side of the rack 5, the material taking plate 7 is installed on the moving end of the first electric sliding table 6, and a jig 8 is placed on the material taking plate 7.

During operation, first electronic slip table 6 relies on the control of electric power, will get flitch 7 and carry out ascending removal in horizontal direction, move the tool 8 and take the product that is on tool 8 to reach from front end equipment in the lump the edge of mechanism 2 of moulding plastics.

The injection molding mechanism 2 comprises an injection molding frame 9, an injection molding upper die 10 and an injection molding lower die 11, an injection molding cylinder 12 is installed at the upper end of the injection molding frame 9, the injection molding upper die 10 is connected with the driving end of the injection molding cylinder 12, and the injection molding lower die 11 is located under the injection molding upper die 10.

The mechanical arm is used for taking and placing a product on a jig 8 on the material taking mechanism 1 onto the injection lower die 11, the injection cylinder 12 is used for controlling the injection upper die 10 to be pressed down to press and hold the product for injection molding, after the injection molding is finished, the injection cylinder 12 is used for controlling the injection upper die 10 to be lifted, and the mechanical arm is used for moving the product after the injection molding to the pressure resistance testing mechanism 3.

The pressure-resistant testing mechanism 3 comprises a pressure-resistant cylinder 13, a pressure-resistant plate 14 and a pressure-resistant testing platform 15, wherein the pressure-resistant testing platform 15 is installed on the frame 5, the pressure-resistant cylinder 13 is located above the pressure-resistant testing platform 15, the pressure-resistant plate 14 is installed on a driving end of the pressure-resistant cylinder 13, and the pressure-resistant plate 14 is pressed on the pressure-resistant testing platform 15.

The product conveyed from the injection molding mechanism 2 is placed on the pressure-resistant test bench 15, the pressure-resistant cylinder 13 controls the pressure-resistant plate 14 to press down and hold the product, a pressure test tool on the pressure-resistant plate 14 performs a pressure test, the product after the pressure detection is carried on to the subsequent detection mechanism 4, and if the pressure detection is not passed, the pressure-resistant cylinder 13 controls the pressure-resistant plate 14 to ascend, and then the manipulator takes away the defective product.

The detection mechanism 4 comprises a detection frame 16, a driving motor 17, a rotating strip 18, a transverse moving plate 19, a longitudinal moving plate 20 and a detection table 21, the detection frame 16 is provided with an arc-shaped movable groove 22, the driving motor 17 is arranged at the rear part of the detection frame 16, the driving end of the driving motor 17 is connected with one end of the rotating bar 18 after passing through the detection frame 16, the other end of the rotating bar 18 is provided with a pulley which slides in the arc-shaped movable groove 22, the pulley is connected with a connecting shaft 23, the upper end of the longitudinal moving plate 20 is hinged on the connecting shaft 23, the longitudinal moving plate 20 slides on the lateral moving plate 19 along the vertical direction, the lateral moving plate 19 slides on the detection rack 16 along the horizontal direction, the lower end of the longitudinal moving plate 20 is provided with a suction nozzle, and a front camera 24 and a rear camera 25 are respectively arranged in front of the detection table 21 and behind the detection table 21.

When detection is carried out, the driving end of the driving motor 17 rotates, the rotating strip 18 rotates, when the pulley and the arc-shaped sliding groove act together, the rotating strip 18 swings towards the front end of equipment, the transverse moving plate 19 moves transversely, and the longitudinal moving plate 20 moves longitudinally, so that the suction nozzle comes to the pressure-resistant test bench 15 to adsorb a single product, then the driving motor 17 rotates reversely, the suction nozzle places the product on the detection bench 21, and the front camera 24 and the rear camera 25 respectively carry out injection molding detection on two sides of the product.

The injection molding machine is characterized in that an injection molding slide rail 26 is arranged below the injection molding frame 9, the injection molding slide rail 26 is fixed on the rack 5, an injection molding slide block 27 is fixed at the lower end of the injection molding lower die 11, and the injection molding slide block 27 is connected to the injection molding slide rail 26 in a sliding mode.

The injection molding slide rail 26 and the injection molding slide block 27 can control the injection molding lower die 11 to be located, and injection molding can be performed by matching different products and different positions on the products.

The frame 5 is provided with a second electric sliding table 28, a test cylinder 29 is arranged at the moving end of the second electric sliding table 28, the test cylinder 29 is horizontally arranged, and the pressure-resistant test bench 15 is connected to the driving end of the test cylinder 29.

In the production process, the second electric sliding table 28 controls the position of the test cylinder 29, so as to control the position of a product to be pressure tested, and perform pressure test on the product at different positions on the jig 8.

The rack 5 is also provided with a third electric sliding table 30, and the pressure-resistant cylinder 13 is arranged at the moving end of the third electric sliding table 30.

Under the action of the third electric sliding table 30, the position of the pressure-resistant cylinder 13 is controlled, and then the position of the pressure-resistant plate 14 is controlled, so that pressure tests are performed on products at different positions on the jig 8.

The rear end of the longitudinal moving plate 20 is fixedly provided with a vertical slide rail 31, the front end of the transverse moving plate 19 is fixedly provided with a vertical slide block 32, the vertical slide block 32 is connected with the vertical slide rail 31 in a sliding manner, the rear end of the transverse moving plate 19 is fixedly provided with a horizontal slide block 33, the front end of the detection frame 16 is fixedly provided with a horizontal slide rail 34, and the horizontal slide rail 34 is connected with the horizontal slide block 33 in a sliding manner.

When the rotating bar 18 rotates for a certain angle, because there is limited movement between the vertical slide rail 31 and the vertical slide block 32, and there is also limited movement between the horizontal slide rail 34 and the horizontal slide block 33, the suction nozzle can be lifted first and then moved to a proper position to descend for sucking a product, and is not affected by mutual positions of various components on the device.

The suction nozzles comprise a front suction nozzle 35 and a rear suction nozzle 36, a suction plate 37 is fixed at the lower end of the longitudinal moving plate 20, and the front suction nozzle 35 and the rear suction nozzle 36 are respectively fixed at two ends of the suction plate 37.

The front suction nozzle 35 is responsible for adsorbing products on the pressure resistance testing mechanism 3 to the detection table 21, the rear suction nozzle 36 is responsible for discharging products on the detection table 21, and the two suction nozzles work synchronously by means of the suction plate 37, so that the detection efficiency is improved.

A discharging cylinder 38 is fixed on the frame 5, a discharging frame 39 is connected to the driving end of the discharging cylinder 38, and a defective product slide way 40 and a non-defective product slide way 41 are fixed on the discharging frame 39.

A defective product storage case 42 is provided below the defective product slide 40, and a good product storage case 43 is provided below the good product slide 41.

When a product which is not qualified in injection molding is detected, the driving end of the discharging air cylinder 38 contracts, the discharging frame 39 moves towards the front end, the upper end of the defective product slide way 40 corresponds to the lower part of the rear suction nozzle 36, and the defective product is placed into the defective product storage box 42 through the defective product slide way 40; when the injection molding products meeting the requirement are detected, the driving end of the discharging cylinder 38 extends out, the discharging frame 39 moves towards the rear end, the upper end of the good product slide 41 corresponds to the lower part of the rear suction nozzle 36, and the good product slide 41 puts the defective products into the good product storage box 43.

It should be noted that the above embodiments are only preferred embodiments of the present invention and the technical principles applied, and any changes or substitutions which can be easily conceived by those skilled in the art within the technical scope of the present invention are covered by the protection scope of the present invention.

Claims (9)

1. An automatic material taking and injection molding pressure-resistant testing device is characterized by comprising a material taking mechanism, an injection molding mechanism, a pressure-resistant testing mechanism, a detecting mechanism and a rack;

the material taking mechanism comprises a first electric sliding table and a material taking plate, the first electric sliding table is positioned on one side of the rack, the material taking plate is installed on the moving end of the first electric sliding table, and a jig is placed on the material taking plate;

the injection molding mechanism comprises an injection molding frame, an injection molding upper die and an injection molding lower die, wherein an injection molding cylinder is installed at the upper end of the injection molding frame, the injection molding upper die is connected with the driving end of the injection molding cylinder, and the injection molding lower die is positioned right below the injection molding upper die;

the pressure-resistant testing mechanism comprises a pressure-resistant cylinder, a pressure-resistant plate and a pressure-resistant testing platform, the pressure-resistant testing platform is arranged on the rack, the pressure-resistant cylinder is positioned above the pressure-resistant testing platform, the pressure-resistant plate is arranged on a driving end of the pressure-resistant cylinder, and the pressure-resistant plate is pressed on the pressure-resistant testing platform;

the detection mechanism comprises a detection frame, a driving motor, a rotating strip, a transverse moving plate, a longitudinal moving plate and a detection platform, the detection frame is provided with an arc-shaped movable groove, the driving motor is arranged at the rear part of the detection frame, the driving end of the driving motor passes through the detection frame and then is connected with one end of the rotating strip, the other end of the rotating strip is provided with a pulley, the pulley slides in the arc-shaped movable groove, the pulley is connected with a connecting shaft, the upper end of the longitudinal moving plate is hinged on the connecting shaft, the longitudinal moving plate slides on the transverse moving plate along the vertical direction, the transverse moving plate slides on the detection frame along the horizontal direction, the lower end of the longitudinal moving plate is provided with a suction nozzle, and a front camera and a rear camera are respectively arranged in front of the detection platform and behind the detection platform.

2. The automatic material taking and injection molding pressure resistance testing equipment as claimed in claim 1, wherein an injection molding slide rail is arranged below the injection molding frame, the injection molding slide rail is fixed on the rack, an injection molding slide block is fixed at the lower end of the injection molding lower die, and the injection molding slide block is slidably connected to the injection molding slide rail.

3. The automatic material taking and injection molding pressure-resistant test equipment as claimed in claim 1, wherein a second electric sliding table is mounted on the rack, a test cylinder is arranged on a moving end of the second electric sliding table, the test cylinder is horizontally arranged, and the pressure-resistant test bench is connected to a driving end of the test cylinder.

4. The automatic material taking and injection molding pressure resistance testing equipment as claimed in claim 1, wherein a third electric sliding table is further arranged on the rack, and the pressure resistance cylinder is installed at a moving end of the third electric sliding table.

5. The automatic material taking and injection molding pressure resistance testing equipment as claimed in claim 1, wherein a vertical slide rail is fixed at the rear end of the longitudinal moving plate, a vertical slide block is fixed at the front end of the transverse moving plate, and the vertical slide block is slidably connected with the vertical slide rail.

6. The automatic material taking and injection molding pressure resistance testing equipment as claimed in claim 1, wherein a horizontal sliding block is fixed at the rear end of the transverse moving plate, a horizontal sliding rail is fixed at the front end of the detection frame, and the horizontal sliding rail is connected with the horizontal sliding block in a sliding manner.

7. The automatic material-taking and injection-molding pressure-resistant testing equipment as claimed in claim 1, wherein the suction nozzle comprises a front suction nozzle and a rear suction nozzle, a suction plate is fixed at the lower end of the longitudinal moving plate, and the front suction nozzle and the rear suction nozzle are respectively fixed at two ends of the suction plate.

8. The automatic material taking and injection molding pressure resistance testing equipment as claimed in claim 1, wherein a material discharging cylinder is fixed on the rack, a material discharging frame is connected to a driving end of the material discharging cylinder, and a defective product slide way and a non-defective product slide way are fixed on the material discharging frame.

9. The automatic material taking and injection molding pressure-resistant testing equipment as claimed in claim 8, wherein a defective product storage box is arranged below the defective product slideway, and a non-defective product storage box is arranged below the non-defective product slideway.

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