CN108995140B - Material receiving device of multi-cavity injection molding product - Google Patents

Abstract

The invention relates to a receiving device of a multi-cavity injection molding product, which comprises: the material bag, the rotary disk, the conveying track and the material receiving device; a material bag placing plate is arranged on the rotating plate; the material bag is placed on the material bag placing tray; the material bag placing trays are arranged in a rotating way by the central line of the rotating disc, and the rotating angle is 90 degrees; the front end of the material bag placing tray is provided with a transition channel for conveying the material bags to the conveying track; the end part of the conveying track is connected with the transition channel; the tail end of the conveying track is provided with a connecting channel for controlling the track direction of material bag conveying; at least 4 independent tracks are arranged below the connecting channel; the receiving device is arranged at the tail end of the independent track and is used for receiving the material bags. According to the invention, the material bags are rapidly and effectively transferred and are subjected to opening treatment through the rotary disc and the pneumatic sucker, and the material receiving device can rapidly receive materials, and is simple to operate and high in working efficiency.

Description

Material receiving device of multi-cavity injection molding product

Technical Field

The invention relates to a production process of an injection molding machine, in particular to a receiving device of a multi-cavity injection molding product.

Background

The injection molding process of plastic products is often to perform injection molding of a plurality of products, particularly small individual plastic products, at a time, and the number of the injection molding is often more. After injection molding is completed, a process of demolding, collecting, finishing and conveying is required before packaging or other processes are performed. The traditional manual operation mode is that a worker directly clamps injection products from a die and then collects, sorts and conveys the injection products, and the labor efficiency of the mode is low.

The Chinese patent with the application number of CN201420285290.4 discloses a rotary disc type material receiving and transferring mechanism of an injection molding product feeder. The rotary disc type material collecting device comprises a disc collecting device, a material moving device, a material cutting head device and a rotary disc changing device, wherein the disc collecting device comprises a material collecting disc, the material moving device comprises a material taking handle structure, a lifting structure and a shifting structure, the material cutting head device comprises a cutter, a pressing ring, a second lifting cylinder and a material head guide groove, and the rotary disc changing device comprises a rotary disc support, a rotating shaft, a product positioning part, a chain wheel, a chain and a second rotating part. The rotary table conversion device converts injection molding products from a disc-shaped arrangement structure into a straight arrangement structure which can be taken away by a material taking structure of a feeder by utilizing the characteristics that the two ends of the rotary table conversion device are round and the middle of the rotary table conversion device is straight and can be converted in the rotation process, so that the problem of connection with subsequent material taking and distributing processes is solved; the material head removing device enables the injection molding product with the material head to be removed and then transferred away, and can reduce the manufacturing precision and the manufacturing cost of the injection molding die. However, the working effect of the material bag with the sealing port cannot be well achieved, and the working efficiency is still to be improved.

Disclosure of Invention

The invention aims to provide a receiving device for a multi-cavity injection molding product, which is efficient and convenient.

In order to ensure that the material can be efficiently and stably received during operation, the invention relates to a receiving device of a multi-cavity injection molding product, which comprises the following components: the material bag, the rotary disk, the conveying track and the material receiving device;

A material bag placing plate is arranged on the rotating plate; the material bag is placed on the material bag placing tray; the material bag placing trays are arranged in a rotating way by the central line of the rotating disc, and the rotating angle is 90 degrees; the front end of the material bag placing tray is provided with a transition channel for conveying the material bags to the conveying track; the end part of the conveying track is connected with the transition channel; the tail end of the conveying track is provided with a connecting channel for controlling the track direction of material bag conveying; at least 4 independent tracks are arranged below the connecting channel; the receiving device is arranged at the tail end of the independent track and is used for receiving the material bags.

The material bag conveying device has the beneficial effects that through the arrangement of the rotary disc, the material bags can be conveyed and opened quickly and effectively, the material bags on the rotary disc are conveyed to the independent tracks in a one-to-one correspondence manner through the action of the connecting channels, and then the material collecting device is used for collecting materials, so that the material bag conveying device is simple to operate, high in practicability and high in working efficiency.

Further, a rotary gear is arranged at the lower end of the rotary disk; a transmission rod is arranged below the rotary gear; and a motor is arranged at the lower end of the transmission rod. Through the effect of motor, after putting into the material bag in a material placing tray, through motor work, drive the transfer line and rotate, and then drive rotatory gear rotation 90 degrees angles, carry out the work of next station.

Further, a propulsion cylinder is arranged at one side of the connecting channel; the front end of the connecting channel is provided with a rotary button; the front end of the connecting channel is connected with the lower end of the conveying track through a rotary button; the tail end of the conveying track is provided with a transition edge. The connecting channel is connected with the lower end of the conveying track through the rotating button, and after materials in the material bag placing tray of one station enter the independent track, the connecting channel is pushed to turn through the action of the pushing cylinder and move to the inlet of the next independent track.

Further, the lower end of the material placing plate is provided with a lifting cylinder; the material is placed the dish lower extreme and is equipped with the fixed slot, lift cylinder tip is equipped with the fixed block. When the material placing plate rotates to the connecting channel, the material placing plate is lifted by the lifting cylinder, so that the material bag in the material placing plate slides into the connecting channel.

Further, protection plates are arranged on two sides of the material bag placing plate. The material bag is prevented from sliding under the action of the protection plate.

Further, a pneumatic sucker is arranged on the rotary disk; the tail end of the pneumatic sucker is provided with an air pipe runner; the lower end of the air pipe runner is provided with a telescopic device. The pneumatic sucker is fixed on the rotary disk through the support frame, and the air pipe runner is moved inwards through the telescopic device until the pneumatic sucker is clung to the material bag. The telescopic device can be matched with the screw rod through the motor, a connecting block can be arranged on the screw rod and connected with the air pipe runner through the connecting block, and the motor rotates the screw rod to drive the connecting block to move back and forth, so that the air pipe runner is driven to move back and forth.

Further, the material receiving device comprises a material receiving frame, a material receiving pipeline and a lifting device; the lower end of the material receiving pipeline is provided with a bent material receiving opening. Impact force when the material descends can be slowed down through the bent receiving opening, so that the material can more gently fall into the material bag.

Further, a beam is arranged on the material receiving frame; the beam is provided with fixing ports which are arranged in an array. Through the effect of fixed mouth, can be with receiving the material pipeline and fix in fixed mouth, guarantee that during operation can not produce and rock.

Further, a buckle is arranged on the material receiving pipeline; the buckle is in an inverted L shape; the inner side of the buckle is provided with a magnet adsorption device. The magnet adsorption device arranged on the inner side of the buckle can be further fixed through the buckle in the fixing opening, so that the working stability is ensured.

Further, a support rod is arranged on the material collecting frame; the cross beam is fixed on the supporting rod. Through set up a slider on the bracing piece, set up the sliding tray on receiving the work or material rest, the slider lower extreme is fixed with lifting cylinder tip, can drive the bracing piece well like this and reciprocate to drive the receipts pipeline fixed with the crossbeam and carry out the lift and remove.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a top view of a receiving device for a multi-cavity injection molded product according to the present invention;

FIG. 2 is a rotary tray view of a receiving device for multi-cavity injection molding products according to the present invention;

FIG. 3 is a diagram of a connecting channel of a receiving device of a multi-cavity injection molding product according to the present invention;

FIG. 4 is a pneumatic suction cup view of a receiving device for a multi-cavity injection molded product of the present invention;

FIG. 5 is a telescopic view of a receiving device for a multi-cavity injection molded product according to the present invention;

fig. 6 is a view of a receiving device for receiving a multi-cavity injection molding product according to the present invention.

Corresponding part names indicated by numerals in the drawings:

1. A material bag; 2. a rotating disc; 3. a transfer rail; 4. a material receiving device; 5. a material bag placing tray; 6. a protective plate; 7. a transition path; 8. a connection channel; 9. an independent track; 10. a propulsion cylinder; 11. a rotary gear; 12. a transmission rod; 13. a motor; 14. a lifting cylinder; 15. a fixing groove; 16. a fixed block; 17. a rotation knob; 18. a transition edge; 19. a pneumatic chuck; 20. an air duct; 21. a telescoping device; 22. a screw rod; 23. a connecting block; 24. a material receiving frame; 25. a material receiving pipeline; 26. a material receiving port; 27. a cross beam; 28. a fixed port; 29. a buckle; 30. a magnet adsorption device; 31. a support rod; 32. and a lifting device.

Detailed Description

The following describes the present invention in further detail with reference to specific examples:

the invention aims to provide a receiving device for a multi-cavity injection molding product, which is efficient and convenient.

As shown in fig. 1, in order to ensure efficient and stable material collection during operation, the invention relates to a material collection device for multi-cavity injection molding products, comprising: the material bag 1, the rotary disk 2, the conveying track 3 and the material receiving device 4;

a material bag placing plate 5 is arranged on the rotating plate 2; the material bag 1 is placed on the material bag placing tray 5; the material bag placing tray 5 is arranged in a rotating way by the central line of the rotating tray 2, and the rotating angle is 90 degrees; the front end of the material bag placing tray 5 is provided with a transition passage 7 for conveying the material bags 1 to the conveying track 3; the end part of the conveying track 3 is connected with the transition channel 7; the tail end of the conveying track 3 is provided with a connecting channel 8 for controlling the track direction of the material bag 1; at least 4 independent tracks 9 are arranged below the connecting channel 8; the receiving device 4 is arranged at the tail end of the independent track 9 and is used for receiving the material bags 1.

The material bag conveying device has the beneficial effects that through the arrangement of the rotary disc 2, the material bags 1 can be conveyed and opened quickly and effectively, the material bags 1 on the rotary disc 2 are conveyed to the independent tracks 9 in a one-to-one correspondence manner through the action of the connecting channels 8, and then the material collecting device 4 is used for collecting materials, so that the material bag conveying device is simple to operate, high in practicability and high in working efficiency.

As shown in fig. 2, further, a rotary gear 11 is arranged at the lower end of the rotary disk 2; a transmission rod 12 is arranged below the rotary gear 11; the lower end of the transmission rod 12 is provided with a motor 13. After the material bag 1 is placed in one material placing tray 5 through the action of the motor 13, the motor 13 works to drive the transmission rod 12 to rotate, and then the rotary gear 11 is driven to rotate by 90 degrees to perform work of the next station.

As shown in fig. 3, further, a propulsion cylinder 10 is arranged at one side of the connecting channel 8; the front end of the connecting channel 8 is provided with a rotary button 17; the front end of the connecting channel 8 is connected with the lower end of the conveying track 3 through a rotary button 17; the end of the transfer rail 3 is provided with a transition edge 18. The connecting channel 8 is connected with the lower end of the conveying track 3 through a rotary button 17, and when materials in the material bag placing tray 5 of one station enter the independent track 9, the connecting channel 8 is pushed to turn by the action of the pushing cylinder 10 and move to the inlet of the next independent track 9.

Further, the lower end of the material placing tray 5 is provided with a lifting cylinder 14; the lower end of the material placing plate 5 is provided with a fixed groove 15, and the end part of the lifting cylinder 14 is provided with a fixed block 16. When the material placing tray 5 rotates to the connecting channel 8, the material placing tray 5 is lifted by the lifting cylinder 14, so that the material bags 1 in the material placing tray 5 slide into the connecting channel 8.

Further, protection plates 6 are arranged on two sides of the material bag placing plate 5. The sliding of the material bag 1 is avoided by the action of the protection plate 6.

As shown in fig. 4 and 5, further, the rotating disc 2 is provided with a pneumatic sucker 19; the tail end of the pneumatic sucker 19 is provided with an air pipe runner 20; the lower end of the air pipe runner 20 is provided with a telescopic device 21. The pneumatic sucker 19 is fixed on the rotary disk 2 through a support frame, and the air pipe runner 20 is moved inwards through the telescopic device 21 until the pneumatic sucker 19 is tightly attached to the material bag 1. The telescopic device 21 can be matched with the screw rod 22 through a motor, a connecting block 23 can be arranged on the screw rod 22, the telescopic device is connected with the air pipe runner 20 through the connecting block 23, and the screw rod 22 is rotated through the motor so as to drive the connecting block 23 to move forwards and backwards, and then the air pipe runner 20 is driven to move forwards and backwards. .

In actual operation, material bag 1 is fixed in material bag placing tray 5 on rotary disk 2, through 4 material bag placing trays 5 of design on rotary disk 2, work efficiency can be increased, reach the effect of transporting material bag 1 through material bag placing tray 5, when the transition way 7 of the material bag placing tray 5 front end of being equipped with material bag 1 is connected with transfer rail 3, through the effect of pneumatic chuck 19, open a pocket with material bag 1 opening, then through the one end of lifting cylinder 14 lifting material bag 1, make material bag 1 landing to transfer rail 3 on, the conveyer belt has been designed on transfer rail and the independent track 9, drive effect through the conveyer belt and then convey into on the independent track 9.

As shown in fig. 6, further, the material collecting device 4 includes a material collecting rack 24, a material collecting pipeline 25, and a lifting device 32; the lower end of the material receiving pipeline 25 is provided with a bent material receiving opening 26. Impact force when the material descends can be relieved through the bent material receiving opening 26, so that the material can more gently fall into the material bag 1.

Further, a fixed cross beam 27 is arranged on the material receiving frame 24; the cross beam 27 is provided with fixing ports 28 arranged in an array. Through the effect of fixed mouth 28, can be with receiving material pipeline 25 fixed in fixed mouth 28, guarantee that the during operation can not produce and rock.

Further, a buckle 29 is arranged on the material receiving pipeline 25; the buckle 29 is in an inverted L shape; the inner side of the buckle 29 is provided with a magnet adsorption device 30. The magnet adsorption device 30 arranged on the inner side of the buckle 29 can be further fixed by the buckle 29 clamped in the fixing opening 28, so that the working stability is ensured.

Further, a supporting rod 31 is arranged on the material receiving frame 24; the cross beam 27 is fixed to the support bar 31. Through setting up a slider on bracing piece 31, set up the sliding tray on receiving work or material rest 24, the slider lower extreme is fixed with lifting cylinder tip, can drive the bracing piece well like this and reciprocate to drive the receipts pipeline fixed with the crossbeam and go up and down to remove.

In actual operation, after the material bag 1 enters the material receiving device 4, the supporting rod 31 is moved downwards through the downward movement of the lifting cylinder, so that the material receiving pipeline 25 is moved downwards, after the material receiving pipeline 25 is moved downwards to the opening of the material bag 1, materials are added into the material receiving pipeline 25, so that the materials flow into the material bag 1 through the material receiving pipeline 25, in order to avoid overlarge material speed pressure in the falling process, the lower end of the material receiving pipeline 25 is set to be of a bent type, the pressure and speed of the falling material are reduced, and the working stability is ensured. When the material collection is completed, the supporting rod 31 is lifted by the lifting cylinder, and the material collection pipeline 25 is separated.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (7)

1. A receiving device for a multi-cavity injection molded product, comprising: the material bag, the rotary disk, the conveying track and the material receiving device;

A material bag placing plate is arranged on the rotating plate; the material bag is placed on the material bag placing tray; the material bag placing trays are arranged in a rotating way by the central line of the rotating disc, and the rotating angle is 90 degrees; the front end of the material bag placing tray is provided with a transition channel for conveying the material bags to the conveying track; the end part of the conveying track is connected with the transition channel; the tail end of the conveying track is provided with a connecting channel for controlling the track direction of material bag conveying; at least 4 independent tracks are arranged below the connecting channel; the material receiving device is arranged at the tail end of the independent track and is used for receiving material bags;

The lower end of the material bag placing tray is provided with a lifting cylinder; the lower end of the material bag placing tray is provided with a fixed groove, and the end part of the lifting cylinder is provided with a fixed block;

The rotary disc is provided with a pneumatic sucker; the tail end of the pneumatic sucker is provided with an air pipe runner; the lower end of the air pipe runner is provided with a telescopic device;

The material receiving device comprises a material receiving frame, a material receiving pipeline and a lifting device; the lower end of the material receiving pipeline is provided with a bent material receiving opening.

2. The receiving device for multi-cavity injection molded products of claim 1, wherein: the lower end of the rotary disk is provided with a rotary gear; a transmission rod is arranged below the rotary gear; and a motor is arranged at the lower end of the transmission rod.

3. The receiving device for multi-cavity injection molded products of claim 1, wherein: a propulsion cylinder is arranged at one side of the connecting channel; the front end of the connecting channel is provided with a rotary button; the front end of the connecting channel is connected with the lower end of the conveying track through a rotary button; the tail end of the conveying track is provided with a transition edge.

4. The receiving device for multi-cavity injection molded products of claim 1, wherein: protection plates are arranged on two sides of the material bag placing plate.

5. The multi-cavity injection molding product receiving device of claim 4, wherein: a beam is arranged on the material receiving frame; the beam is provided with fixing ports which are arranged in an array.

6. The multi-cavity injection molding product receiving device of claim 5, wherein: a buckle is arranged on the material receiving pipeline; the buckle is in an inverted L shape; the inner side of the buckle is provided with a magnet adsorption device.

7. The multi-cavity injection molding product receiving device of claim 5, wherein: a supporting rod is arranged on the material collecting frame; the cross beam is fixed on the supporting rod.