CN218053786U - Feeding device for automatic fiber umbrella rib rubber coating equipment - Google Patents

Abstract

The utility model relates to a rib rubber coating field especially indicates a material feeding unit that is used for automatic rubber coating equipment of fibre rib, and this material feeding unit is including arranging fine frame, inhaling fine board and drive division. The fiber arranging rack is provided with a fiber placing rack for placing umbrella ribs, and the lifting rack of the fiber arranging rack is provided with a sliding block capable of sliding up and down. The connecting frame positioned below the fiber suction plate is rotatably connected to the sliding block, and the fiber suction plate can move back and forth relative to the connecting frame. The driving part comprises a driving frame, a first driving gear, a first driving toothed belt, a second driving gear and a second driving toothed belt, and the driving frame is arranged between the fiber suction plate and the connecting frame. When the operation, can make neatly arranged have the fine board of inhaling of rib to change to the level gradually through the cooperation of being connected between crane and the link, the fine board horizontal migration is inhaled in the drive of rethread drive division, and the rib that will inhale on the fine board is transported to the lower mould of mould and is moulded plastics and form the umbrella skeleton, and the automatic range, the material loading of rib need not artifical material loading in the completion mould, improve machining efficiency.

Description

Feeding device for automatic fiber umbrella rib rubber coating equipment

Technical Field

The utility model relates to a rib rubber coating field especially indicates a material feeding unit that is used for automatic rubber coating equipment of fibre rib.

Background

The umbrella rib encapsulation injection molding is that a certain number of fiber umbrella ribs are discharged into corresponding injection molding machine molds, plastic is coated at two ends of the umbrella ribs or certain specific positions, the umbrella ribs needing encapsulation are manually placed in the molds, and the method is time-consuming and labor-consuming, so that the production efficiency is low.

Disclosure of Invention

The utility model provides a not enough to above-mentioned background art provides a material feeding unit for automatic rubber coating equipment of fibre rib.

The utility model adopts the following technical scheme:

the utility model provides a material feeding unit that is used for automatic rubber coating equipment of fibre rib which characterized in that, including:

the fiber arranging machine frame is provided with a fiber placing frame for placing umbrella ribs, the fiber arranging machine frame is provided with a lifting frame, and the lifting frame is provided with a sliding block capable of sliding up and down;

the fiber suction plate is provided with a connecting frame below, the connecting frame is rotatably connected to the sliding block, and the fiber suction plate can move back and forth relative to the connecting frame;

the driving part comprises a driving frame, a first driving gear, a first driving toothed belt, a second driving gear and a second driving toothed belt, the driving frame is arranged between the fiber suction plate and the connecting frame, the driving frame is symmetrically provided with the rotatable first driving gear, the first driving toothed belts meshed with the first driving gear are arranged on the two first driving gears, the middle section of the first driving toothed belt is fixedly connected to the bottom surface of the fiber suction plate, the middle section of the lower side of the first driving toothed belt is fixedly connected to the surface of the connecting frame, two ends of the bottom surface of the driving frame are fixedly connected with two ends of the second driving toothed belt, and the second driving toothed belt is driven by the second driving gear on the connecting frame;

the fiber absorbing plate is U-shaped, the lower die of the die is provided with corresponding abdicating grooves, the fiber absorbing plate is movably inserted into the abdicating grooves, and the fiber absorbing plate is used for conveying ribs on the fiber placing frame to the lower die of the die in a neat arrangement manner for injection molding to form an umbrella skeleton.

As a further improvement, two guide wheels are symmetrically arranged above the driving gear, the two guide wheels are rotatably arranged on the connecting frame, and two ends of the second driving toothed belt are connected with the driving frame after bypassing the two guide wheels respectively.

As a further improvement, the second driving gear is driven by a driving motor fixed on the connecting frame.

As can be seen from the above description of the structure of the present invention, compared with the prior art, the present invention has the following advantages: the feeding device comprises a fiber discharging rack, a fiber absorbing plate and a driving part. The fiber arranging rack is provided with a fiber placing rack for placing umbrella ribs, and the lifting rack of the fiber arranging rack is provided with a sliding block capable of sliding up and down. The connecting frame positioned below the fiber suction plate is rotatably connected to the sliding block, and the fiber suction plate can move back and forth relative to the connecting frame. The driving part comprises a driving frame, a first driving gear, a first driving toothed belt, a second driving gear and a second driving toothed belt, and the driving frame is arranged between the fiber suction plate and the connecting frame. When the operation, can make neatly arranged have the fine board of inhaling of rib to rotate to the level gradually through the cooperation of being connected between crane and the link, the fine board horizontal migration is inhaled in the drive of rethread drive division, will inhale the rib on the fine board and transport and mould plastics on the lower mould of mould and form the umbrella skeleton, and the automatic range, the material loading of rib need not artifical material loading in the completion mould, improve machining efficiency.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of another perspective view of the present invention.

Fig. 3 is a schematic perspective structure diagram of the lifting frame and the fiber feeding mechanism.

Fig. 4 is a schematic perspective view of the crane.

Fig. 5 is a schematic perspective view of the fiber suction plate and the driving part.

Fig. 6 is a schematic perspective view of the crane, the fiber suction plate and the driving part from another view angle.

Fig. 7 is a schematic perspective view of the mold.

FIG. 8 is a schematic top view of the fiber absorbing plate and the mold.

Fig. 9 is a schematic perspective view of the transfer mechanism.

Fig. 10 is a schematic perspective view of a clamp on the transfer mechanism.

Fig. 11 is a schematic view of an exploded structure of a clamp on the transfer mechanism.

Fig. 12 is a schematic perspective view of the separating mechanism.

Fig. 13 is a schematic perspective view of a material distributing frame on the material distributing mechanism.

Fig. 14 is a top view of the umbrella frame.

Fig. 15 is a schematic view of a top view structure of the umbrella frame transferred to the distributing base.

Fig. 16 is a schematic structural diagram of a in fig. 15.

Fig. 17 is an exploded view of the fiber suction plate and the driving part.

Fig. 18 is a schematic perspective view of the fiber absorbing plate after moving on the driving part.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

As shown in fig. 1 to 3, a feeding device for an automatic fiber umbrella rib wrapping device comprises a fiber arranging rack 11, a fiber absorbing plate 22 and a driving part 23.

As shown in the attached drawing 2, the fiber arranging frame 11 is provided with a fiber arranging frame 12 for placing the umbrella ribs 61, the fiber arranging frame 11 is provided with a lifting frame 13, the lifting frame 13 is provided with a slide block 14 capable of sliding up and down, the movement of the slide block 14 can be driven by a screw rod mechanism arranged in the lifting frame 13, when in operation, a motor on the screw rod mechanism drives a screw rod thereof to rotate, the screw rod is in threaded connection with the slide block 14, the slide block 14 moves up and down along the lifting frame 13 through threaded meshing force, power is provided for the subsequent movement of the fiber absorbing plate 22, and the fiber absorbing operation of the fiber absorbing plate 22 is completed.

As shown in fig. 1 to 3, a connecting frame 21 is arranged below the fiber suction plate 22, the connecting frame 21 is rotatably connected to the sliding block 14, and the fiber suction plate 22 can move back and forth relative to the connecting frame 21, the fiber suction plate 22 is used for feeding the ribs 61 on the fiber placement frame 12 to the lower mold 31 of the mold 3 for injection molding to form the umbrella frame 6, specifically, the fiber suction plate 22 is a hollow plate, through holes penetrate through grooves for absorbing the ribs 61 on the surface of the fiber suction plate 22, openings penetrate through the side of the fiber suction plate 22, the openings are connected with a suction pump through an external conduit, when in operation, the suction pump is started, air in the fiber suction plate 22 is pumped through the conduit and the openings, so that negative pressure is formed in the fiber suction plate 22, at this time, external air enters the fiber suction plate 22 from the through holes in the grooves on the surface of the fiber suction plate 22, so that the ribs 61 are absorbed in the grooves on the surface of the fiber suction plate 22, the ribs 61 are arranged on the fiber suction plate 22, the ribs are moved, and then the ribs 61 are conveyed to the lower mold 31 of the mold 3 for injection molding without manual molding, thereby improving the efficiency of the umbrella frame 6.

As shown in fig. 3 to 8, the connecting frame 21 is rotatably connected to the sliding block 14, specifically, the lifting frame 13 is provided with a cam 131 protruding outward on the surface, the connecting frame 21 is provided with a limiting groove 211 recessed inward, the limiting groove 211 is 7-shaped, and a notch at one end of the limiting groove 211 is exposed to the surface of the connecting frame 21. When the slider 14 drives the connecting frame 21 to move upwards, the cam 131 is embedded into the limiting groove 211, then the slider 14 continues to drive the connecting frame 21 to move upwards, at this time, after the cam 131 moves along the limiting groove 211, the connecting frame 21 drives the fiber suction plate 22 to gradually rotate to move upwards for a certain distance horizontally and stop, then the fiber suction plate 22 moves horizontally forwards, the fiber suction plate 22 in a U shape is inserted into the abdicating groove 32 on the lower die 31 of the die 3, then the fiber suction plate 22 descends horizontally, the suction pump stops working, the umbrella ribs 61 regularly arranged on the fiber suction plate 22 are flatly placed on the grooves on the surface of the lower die 31, the feeding operation of the umbrella ribs 61 is automatically realized, then the fiber suction plate 22 resets, the umbrella ribs 61 are injection-molded on the die 3 to form the umbrella framework 6, the structure is simple, the operation is convenient, the automatic feeding and the feeding operation of the umbrella ribs 61 on the die 3 are realized through the mutual matching of the fiber arranging frame 11, the fiber suction plate 22 and the driving part 23, the automatic feeding and the feeding operation of the umbrella ribs 61 on the one hand is not required to save the labor cost, and on the other hand, the efficiency of the injection-molding of the umbrella ribs of the injection-molded by accelerating.

In addition, as shown in fig. 5, 17 and 18, the fiber suction plate 22 is driven to move back and forth relative to the connecting frame 21 by the driving part 23, specifically, the driving part 23 includes a driving frame 231, a first driving gear 232, a first driving toothed belt 233, a sliding block 234, a second driving gear 211 and a second driving toothed belt 212, the driving frame 231 is slidably disposed between the fiber suction plate 22 and the connecting frame 21 by the sliding block 234, the driving frame 231 is symmetrically provided with the rotatable first driving gear 232, two first driving gears 232 are provided with the first driving toothed belt 233 engaged with the first driving gear 233, the middle section of the first driving toothed belt 233 is fixedly connected to the bottom surface of the fiber suction plate 22, the middle section of the lower side of the first driving toothed belt 233 is fixedly connected to the surface of the connecting frame 21, two ends of the second driving toothed belt 212 are fixedly connected to two ends of the driving gear 211 on the connecting frame 21, and the second driving gear 211 is driven by the driving motor 214 fixed to the connecting frame 21. When the fiber suction plate 22 rotates to the horizontal position, the driving motor 214 drives the second driving gear 211 to rotate, so that the second driving toothed belt 212 meshed with the second driving gear 211 moves, two ends of the second driving toothed belt 212 are fixedly connected to the driving rack 231, so that the driving rack 231 is positioned on the connecting rack 21 to move, meanwhile, the middle section of the lower side of the first driving toothed belt 233 is fixedly connected to the surface of the connecting rack 21, so that when the driving rack 231 moves, the first driving toothed belt 233 is positioned on the first driving gear 232 to operate, the fiber suction plate 22 is driven by the first driving toothed belt 233 to move simultaneously, so that when the driving rack 231 moves to extend the first driving toothed belt and the fiber suction plate 22, the first driving toothed belt 233 also drives the fiber suction plate 22 to extend continuously, so that the moving range of the fiber suction plate 22 exceeds the length of the driving rack 231, the using range of the fiber suction plate 22 is further expanded, and the driving part 23 is used for horizontally moving the fiber suction plate 22 to the lower mold 31 of the mold 3, and the feeding rib can be automatically completed.

Further, as shown in fig. 17, two guide wheels 213 are symmetrically arranged above the driving gear 211, the two guide wheels 213 are rotatably arranged on the connecting frame 21, two ends of the second driving toothed belt 212 are connected with the driving frame 231 after bypassing the two guide wheels 213, the two guide wheels 213 are arranged to effectively guide the operation of the second driving toothed belt 212, so that the risk of deviation of the second driving toothed belt 212 in the moving process is reduced, the connection between the second driving toothed belt 212 and the second driving gear 211 is stable, the second driving gear 211 and the second driving toothed belt 212 are prevented from slipping in the using process, and the driving section 23 is ensured to operate smoothly to drive the fiber suction plate 22.

As shown in the accompanying drawings 9 to 16, the automatic rubber coating equipment for fiber ribs further comprises a fiber discharging mechanism 1, a transferring mechanism 4 and a distributing mechanism 5, wherein the fiber discharging mechanism 1, a fiber absorbing plate 22 and a driving part 23 are matched with each other to arrange ribs 61 on a fiber placing frame 12 in order and send the ribs to a lower die 31 of a die 3 to form an umbrella frame 6 through injection molding, the transferring mechanism 4 is used for transferring the umbrella frame 6 formed through injection molding to the distributing mechanism 5, and the distributing mechanism 5 is used for separating a plastic frame 62 on the umbrella frame 6 from the ribs 61.

During operation, the slider 14 drives the fiber absorbing plate 22 to move downwards along the lifting frame 13, the suction pump is started at the same time, air in the fiber absorbing plate 22 is pumped away through the conduit and the opening, negative pressure is formed in the fiber absorbing plate 22, at the moment, external air can enter the fiber absorbing plate 22 from the through hole of the groove on the surface of the fiber absorbing plate 22, the ribs 61 are adsorbed in the groove on the surface of the fiber absorbing plate 22, then the fiber absorbing plate 22 moves upwards along the lifting frame 13, and in the process, a plurality of ribs 61 are adsorbed and arranged in the groove on the surface of the fiber absorbing plate 22 regularly, and fiber discharge of the ribs 61 is completed;

when the slider 14 drives the fiber suction plate 22 and the connecting frame 21 to move upwards to be close to the top end of the lifting frame 13, the cam 131 is embedded into the limiting groove 211, then the slider 14 continues to drive the fiber suction plate 22 and the connecting frame 21 to move upwards, at the moment, after the cam 131 moves along the limiting groove 211, the connecting frame 21 is forced to drive the fiber suction plate 22 to gradually rotate to the horizontal state and move upwards for a certain distance, then the fiber suction plate 22 stops moving forwards horizontally, the U-shaped fiber suction plate 22 is inserted into the abdicating groove 32 on the lower die 31 of the die 3, then the fiber suction plate 22 descends horizontally, the suction pump stops working, the ribs 61 regularly arranged on the fiber suction plate 22 are flatly placed on the grooves on the surface of the lower die 31, the feeding operation of the ribs 61 is automatically realized, then the fiber suction plate 22 resets, the ribs 61 are subjected to injection molding on the die 3 to form the umbrella framework 6, and the automatic feeding and loading operation of the ribs 61 on the die 3 is realized;

after the umbrella frame 6 is molded, firstly moving the clamp 42 to enable the clamp 42 to cover the umbrella frame 6 which is injection molded on the mold 3, at the moment, inserting the fixed clamp 423 between adjacent umbrella ribs 61 on the umbrella frame 6, then moving the two movable clamps 422 oppositely until the clamping blocks 4221 on the two movable clamps 422 are clamped and closed, limiting the umbrella ribs 61 between the movable clamps 422 and the mounting rack 421, then moving the pressing block 427 downwards to press the umbrella ribs 61 on the movable clamps 422 to complete the fixed connection of the umbrella frame 6 and the clamp 42, avoiding the umbrella frame 6 from falling off from the clamp 42 in the moving process along with the clamp 42, then moving and rotating the clamp 42 to transfer the umbrella frame 6 to the transverse frame of the material distribution base 51, and enabling the plastic frame 62 of the umbrella frame 6 to be positioned below the material distribution hook 522 to complete the transfer of the umbrella frame 6;

then the connecting part 521 drives the distributing hook 522 to move downwards to hook the plastic frame 62 suspended on the umbrella frame 6, because the umbrella ribs 61 on the umbrella frame 6 are supported by the cross frame on the distributing base 51, the distributing hook 522 can pull the plastic frame 62 off the umbrella ribs 61 of the umbrella frame 6, so as to separate the plastic frame 62 from the umbrella ribs 61, the injection molded and encapsulated umbrella ribs 61 can be used independently, and the redundant plastic frame 62 formed by the injection molded track can be removed and recovered, thereby completing the encapsulation operation of the umbrella ribs 61. Simple structure, the simple operation, through arrange fine mechanism 1 and send fine mechanism 2 mutually support be used for putting rib 61 neatly arranged on the fine frame 12 and deliver to the lower mould 31 of mould 3 on form umbrella frame 6 of moulding plastics, the umbrella frame 6 that rethread transport mechanism 4 will mould plastics and form transports extremely on feed mechanism 5, and feed mechanism 5 is used for separating the plastic frame 62 on the umbrella frame 6 from rib 61, and the rib 61 after the encapsulation of will moulding plastics independently comes out the use, compact structure, whole journey need not manual operation, practices thrift the cost of labor on the one hand, and on the other hand accelerates rib 61 mould plastics the efficiency of encapsulation.

The aforesaid is only the embodiment of the present invention, but the design concept of the present invention is not limited to this, and it is right to utilize this concept the present invention to perform insubstantial modification, and all belong to infringement the protection scope of the present invention.

Claims (3)

1. The utility model provides a material feeding unit that is used for automatic rubber coating equipment of fibre rib which characterized in that, including:

the fiber arranging machine frame is provided with a fiber placing frame for placing umbrella ribs, a lifting frame is arranged on the fiber arranging machine frame, and the lifting frame is provided with a sliding block capable of sliding up and down;

the fiber suction plate is provided with a connecting frame below, the connecting frame is rotatably connected to the sliding block, and the fiber suction plate can move back and forth relative to the connecting frame;

the driving part comprises a driving frame, a first driving gear, a first driving toothed belt, a second driving gear and a second driving toothed belt, the driving frame is arranged between the fiber absorbing plate and the connecting frame, the driving frame is symmetrically provided with the rotatable first driving gear, the first driving toothed belts meshed with the first driving gear are arranged on the first driving gears, the middle section of the upper side of the first driving toothed belt is fixedly connected to the bottom surface of the fiber absorbing plate, the middle section of the lower side of the first driving toothed belt is fixedly connected to the surface of the connecting frame, two ends of the bottom surface of the driving frame are fixedly connected with two ends of the second driving toothed belt, and the second driving toothed belt is driven by the second driving gear on the connecting frame;

the fiber suction plate is U-shaped, the lower die of the die is provided with corresponding abdicating grooves, the fiber suction plate is movably inserted into the abdicating grooves, and the fiber suction plate is used for conveying umbrella ribs on the fiber placement frame to the lower die of the die in a neat arrangement mode for injection molding to form an umbrella framework.

2. The feeding device for the automatic fiber umbrella rib coating equipment according to claim 1, is characterized in that: two guide wheels are symmetrically arranged above the driving gear, the two guide wheels are rotatably arranged on the connecting frame, and two ends of the second driving toothed belt are connected with the driving frame after bypassing the two guide wheels respectively.

3. The feeding device for the automatic fiber umbrella rib coating equipment according to claim 2, is characterized in that: the second driving gear is driven by a driving motor fixed on the connecting frame.

Images