CN219448376U - Plectrum silk screen printing automatic feeding equipment - Google Patents

Abstract

The automatic feeding device for the plectrum silk screen printing comprises a discharging plate, a feeding adjusting mechanism arranged below the discharging plate, a base arranged below the feeding adjusting mechanism and a feeding driving mechanism for driving the feeding adjusting mechanism to move forwards and backwards; the feeding adjusting mechanism comprises a feeding plate arranged below the feeding plate, an adjusting male die bottom plate arranged below the adjusting male die and fixedly connected with the adjusting male die bottom plate and a sliding bottom plate arranged below the adjusting male die bottom plate, a feeding groove is formed in the feeding plate, a setting plate cavity is formed by matching the feeding plate and the adjusting male die, the setting plate cavity can correspond to the feeding groove, a limiting sliding shaft is arranged between the feeding plate and the sliding bottom plate, and an adjusting cylinder for driving the adjusting male die bottom plate and the adjusting male die to move up and down along the limiting sliding shaft is arranged at the bottom of the sliding bottom plate. Realize automatic row of plectrum piece and material loading, operating efficiency is high.

Description

Plectrum silk screen printing automatic feeding equipment

Technical Field

The utility model relates to conveying equipment, in particular to automatic feeding equipment for plectrum silk printing.

Background

The production process of the plectrum comprises an injection molding process and a silk screen process. The silk screen printing process is a process of silk screen printing patterns on the surface of the plectrum through silk screen printing equipment, and in order to improve the silk screen printing efficiency, the plectrum is required to be arranged in sequence before silk screen printing, and the efficiency is improved by a method of silk screen printing a plurality of plectrums at a time. The prior art has no special equipment for arranging and conveying the plectrum machine types, and the operation is totally manually operated, so that the operation efficiency is low.

Disclosure of Invention

The utility model aims to solve the technical problem of providing the automatic feeding equipment for the plectrum silk screen printing, which realizes automatic plectrum arranging and feeding and has high operation efficiency.

In order to solve the technical problems, the technical scheme of the utility model is as follows: the automatic feeding device for the plectrum silk screen printing comprises a discharging plate, a feeding adjusting mechanism arranged below the discharging plate, a base arranged below the feeding adjusting mechanism and a feeding driving mechanism for driving the feeding adjusting mechanism to move forwards and backwards; the feeding adjusting mechanism comprises a feeding plate arranged below the feeding plate, an adjusting male die bottom plate arranged below the adjusting male die and fixedly connected with the adjusting male die bottom plate and a sliding bottom plate arranged below the adjusting male die bottom plate, a feeding groove is formed in the feeding plate, a setting plate cavity is formed by matching the feeding plate and the adjusting male die, the setting plate cavity can correspond to the feeding groove, a limiting sliding shaft is arranged between the feeding plate and the sliding bottom plate, and an adjusting cylinder for driving the adjusting male die bottom plate and the adjusting male die to move up and down along the limiting sliding shaft is arranged at the bottom of the sliding bottom plate. The principle of the utility model is as follows: the poking sheets are stacked and placed in the discharge grooves of the discharge plate, and the arrangement sequence of the discharge grooves is the arrangement sequence of the poking sheets; when the feeding driving mechanism drives the placing plectrum cavity of the discharging plate to correspond to the discharging groove, the plectrum in the discharging groove falls into the placing plectrum cavity under the action of self gravity, and only one plectrum can be fed in each time due to the depth limitation of the placing plectrum cavity, so that the plectrum can be discharged; the feeding driving mechanism drives the feeding adjusting mechanism to move forwards, the poking piece in the poking piece placing cavity is pushed to the feeding station, the poking piece on the feeding plate is grabbed by the feeding mechanical arm through the washing plate, automatic feeding is achieved, meanwhile, the poking piece in the feeding groove cannot fall down due to the fact that the bottom of the feeding groove is shielded, and the poking piece is guaranteed to be stored and wait for the next piece taking action.

As an improvement, an adjusting screw is arranged on the adjusting punch bottom plate, and the adjusting screw penetrates through the adjusting punch bottom plate and abuts against the sliding bottom plate.

As an improvement, a vacuum cavity is formed between the adjusting male die and the adjusting male die bottom plate, an air suction channel is arranged in the adjusting male die, the air suction channel is respectively communicated with the vacuum cavity and the setting plectrum cavity, and the vacuum cavity is connected with the negative pressure valve through an air pipe.

As an improvement, the feeding plate is provided with a feeding hole, the adjusting male die is provided with a protrusion, and the protrusion is arranged in the feeding hole to form the dial cavity.

As an improvement, a gap is arranged between the discharging plate and the feeding plate, and the interval of the gap is smaller than the thickness of the poking plate.

As an improvement, the feeding plate is rectangular and comprises a feeding area and a non-feeding area, and the placing poking plate cavity is arranged in the feeding area, and the feeding area and the non-feeding area alternately correspond to the discharging plate.

As an improvement, a supporting rod is arranged on the feeding plate at the non-feeding area, and the lower end of the supporting rod is in sliding connection with the guide rail.

As an improvement, the feeding driving mechanism comprises a sliding rail base plate arranged on the base, a guide rail arranged on the sliding rail base plate, a sliding table arranged at the bottom of the sliding base plate and a feeding air cylinder connected with the feeding plate, wherein the sliding table is in sliding fit with the guide rail, the feeding air cylinder is fixed on a feeding air cylinder seat, and the feeding air cylinder seat is fixed on the base.

As an improvement, a supporting plate is arranged between the discharging plate and two sides of the base.

As an improvement, the depth of the cavity for placing the plectrum is the same as the thickness of the plectrum.

Compared with the prior art, the utility model has the beneficial effects that:

the stirring sheets are stored by utilizing a discharge groove of the discharge plate; the automatic sheet arrangement of the shifting sheets is realized by utilizing the matching of the discharging plate and the feeding plate; the automatic feeding of the poking sheets is realized by driving the movement of the feeding plate by the feeding driving mechanism; the utility model does not need manual sheet arrangement and feeding, has high operation efficiency, and can set different sheet arrangement sequences according to the needs.

Drawings

FIG. 1 is a schematic cross-sectional view of the present utility model.

Fig. 2 is a schematic side view of the present utility model.

Fig. 3 is a top view of the feeding state of the present utility model.

Fig. 4 is a top view of the present utility model in a take-off state.

Fig. 5 is a schematic diagram of a state to be fed.

Fig. 6 is a schematic diagram of the retracted state.

Fig. 7 is a schematic view of the take-out state.

FIG. 8 is a schematic diagram of a feeding state.

Description of the embodiments

The utility model is further described below with reference to the drawings.

As shown in fig. 1 and 2, the automatic feeding device for plectrum silk screen printing comprises a discharging plate 1, a feeding adjusting mechanism arranged below the discharging plate 1, a base 8 arranged below the feeding adjusting mechanism and a feeding driving mechanism for driving the feeding adjusting mechanism to move back and forth. The feeding adjusting mechanism comprises a feeding plate 2 arranged below the discharging plate 1, an adjusting male die 3 arranged below the feeding plate 2, an adjusting male die bottom plate 4 arranged below the adjusting male die 3 and fixedly connected with the adjusting male die bottom plate, and a sliding bottom plate 5 arranged below the adjusting male die bottom plate 4.

As shown in fig. 1 and 2, a supporting plate 6 is arranged between the discharging plate 1 and two sides of the base 8, the supporting plate 6 is used for supporting the discharging plate 1, and the supporting plate 6 is fastened and connected with the feeding plate 2 through screws. The discharging plate 1 is provided with discharging grooves 9, the arrangement sequence of the discharging grooves 9 is that of the poking sheets, and the discharging grooves 9 in the embodiment are arranged in a matrix. The shape of the discharge groove 9 is similar to that of the poking sheets, the depth of the discharge groove 9 can be even deeper according to the needs, and the number of poking sheets which can be stored is larger.

As shown in fig. 1 to 4, the feeding plate 2 and the adjusting male die 3 are matched to form a setting plectrum cavity 12, a feeding hole is formed in the feeding plate 2, a protrusion is formed in the adjusting male die 3, and the protrusion is arranged in the feeding hole to form the setting plectrum cavity 12. The shape of the placing plectrum cavity 12 is similar to that of the plectrum, the depth is the same as the thickness of the plectrum, a plectrum can only be contained in the placing plectrum cavity 12, and after the plectrum is placed in the placing plectrum cavity 12, the top surface of the plectrum is flush with the top surface of the feeding plate 2. The feeding plate 2 is rectangular and comprises a feeding area and a non-feeding area, the placing plectrum cavity 12 is arranged in the feeding area, the feeding area and the non-feeding area are alternately corresponding to the feeding plate 1, when the feeding area corresponds to the feeding plate 1, the feeding groove 9 is opposite to the placing plectrum cavity 12, the plectrum can fall into the placing plectrum cavity 12 from the feeding groove 9, and when the non-feeding area corresponds to the feeding plate 1, the bottom of the feeding groove 9 is shielded, and the plectrum cannot fall. Because the feeding plate 2 is longer, one side is fixed on the sliding bottom plate 5, and the other side is suspended, so that the feeding plate 2 is easy to deform, a supporting rod 22 is required to be arranged at the feeding area of the feeding plate 2, the lower end of the supporting rod 22 is in sliding connection with the guide rail, and the supporting rod moves back and forth along with the feeding plate 2 and can support the feeding plate 2.

As shown in fig. 1 and 2, a limiting sliding shaft 18 is arranged between the feeding plate 2 and the sliding bottom plate 5, screw holes are formed at two ends of the limiting sliding shaft 18, the upper end and the lower end of a step surface of the limiting sliding shaft 18 are respectively propped against the sliding bottom plate 5 and the feeding plate 2, and the sliding bottom plate 5 and the feeding plate 2 are locked by screws so as to keep a fixed distance. The adjusting male die 3 and the adjusting male die bottom plate 4 are fastened together by screws, linear bearings are arranged at the positions of the limiting sliding shafts 18, the adjusting male die 3 and the adjusting male die bottom plate 4 slide up and down along the spacing between the sliding bottom plate 5 and the feeding plate 2 along the limiting sliding shafts 18, and the depth of the setting dial plate cavity 12 can be changed by adjusting the movement of the male die 3. The adjusting male die bottom plate 4 is provided with the adjusting screw 17, the adjusting screw 17 penetrates through the adjusting male die bottom plate 4 and is propped against the sliding bottom plate 5, the position of the adjusting male die 3 can be adjusted through the adjusting screw 17, the maximum depth of the setting plectrum cavity 12, namely the thickness of the plectrum, can be determined, and the production requirements of plectrum with different thicknesses can be met. A gap is arranged between the discharging plate 1 and the feeding plate 2, the distance between the gap is smaller than the thickness of the poking sheets, and the gap not only enables the feeding plate 2 to move back and forth relative to the discharging plate 1, but also enables the poking sheets to be placed in the gap.

As shown in fig. 1 and 2, a vacuum cavity 11 is formed between the adjusting punch 3 and the adjusting punch bottom plate 4, the vacuum cavity 11 is formed by surrounding a groove at the bottom of the adjusting punch 3 and the top surface of the adjusting punch bottom plate 4, and the joint between the adjusting punch 3 and the adjusting punch bottom plate 4 is sealed by sealant. The adjustable punch 3 is internally provided with an air suction channel 10, the air suction channel 10 is respectively communicated with a vacuum cavity 11 and a dial plate placing cavity 12, the vacuum cavity 11 is connected with a negative pressure valve through an air pipe 13, and an air suction hole is formed in the dial plate placing cavity 12, so that the vacuum cavity 11 can generate negative pressure, and the dial plate is stably adsorbed in the dial plate placing cavity 12.

As shown in fig. 1 and 2, an adjusting cylinder 14 for driving the adjusting punch base plate 4 and the adjusting punch to move up and down along the limiting sliding shaft 18 is arranged at the bottom of the sliding base plate 5. The cylinder shaft 16 is connected to the adjusting punch bottom plate 4 by a screw, the top sleeve 15 is arranged in the middle of the adjusting punch bottom plate, after the screw is tightened, the adjusting punch bottom plate 4 and the adjusting punch 3 can be driven to move up and down along the limit sliding shaft 182 when the adjusting cylinder 14 moves upwards, the adjusting punch and the feeding plate 2 are tightly attached together, and then the upper surface of the adjusting punch 3 and the upper surface of the feeding plate 2 are on the same plane; when the adjusting cylinder 14 moves downwards, the adjusting male die 3 descends, and a setting plectrum cavity 12 is formed between the follow-up feeding plates 2.

As shown in fig. 1 and 2, the feeding driving mechanism comprises a sliding rail base plate 7 arranged on a base 8, a guide rail 20 arranged on the sliding rail base plate 7, a sliding table 19 arranged at the bottom of the sliding base plate 5 and a feeding air cylinder 21 connected with the feeding plate 2, wherein the sliding table 19 is in sliding fit with the guide rail 20, the feeding air cylinder 21 is fixed on a feeding air cylinder seat, and the feeding air cylinder seat is fixed on the base 8.

As shown in fig. 5, in the state of taking materials, the male die and the feeding plate 2 are adjusted to be on the same plane, the air suction hole does not suck air, the poking plate 22 is clung to the feeding plate 2 due to gravity, and the poking plate 22 is placed in the material placing groove 9 of the material placing plate 1; as shown in fig. 6, the feeding plate 2 and the adjusting male die are retracted, when the position of the adjusting male die is coincident with the position of the groove of the discharging plate 1, the feeding plate 2 stops moving, and the material is taken; as shown in fig. 7, the adjusting male die sinks, the suction hole sucks air, the sinking depth is consistent with the thickness of the pulling piece 22, at this time, the pulling piece 22 falls into a feeding plate 2 and a pulling piece 22 placing cavity 12 formed by the adjusting male die, the suction hole firmly sucks the pulling piece 22, as the depth of the pulling piece 22 placing cavity 12 is consistent with the thickness of the pulling piece 22, the upper plane of the pulling piece 22 falling into the pulling piece 22 placing cavity 12 and the plane of the feeding plate 2 are on the same plane, and the feeding plate 2 pushes the pulling piece 22 outwards to realize the pulling and feeding; as shown in fig. 8, when feeding to the set position, the suction cup of the material taking manipulator of the screen printing machine sucks 23 the pulling piece 22, the suction hole stops sucking air, after the pulling piece 22 is taken away by the material taking manipulator of the screen printing machine, the male die is adjusted to push upwards, so that the upper plane of the male die and the feeding panel are adjusted to be on the same plane, and the next feeding cycle is entered.

Claims (10)

1. The utility model provides a plectrum silk screen printing autoloading equipment which characterized in that: the feeding device comprises a discharging plate, a feeding adjusting mechanism arranged below the discharging plate, a base arranged below the feeding adjusting mechanism and a feeding driving mechanism for driving the feeding adjusting mechanism to move forwards and backwards; the feeding adjusting mechanism comprises a feeding plate arranged below the feeding plate, an adjusting male die bottom plate arranged below the adjusting male die and fixedly connected with the adjusting male die bottom plate and a sliding bottom plate arranged below the adjusting male die bottom plate, a feeding groove is formed in the feeding plate, a setting plate cavity is formed by matching the feeding plate and the adjusting male die, the setting plate cavity can correspond to the feeding groove, a limiting sliding shaft is arranged between the feeding plate and the sliding bottom plate, and an adjusting cylinder for driving the adjusting male die bottom plate and the adjusting male die to move up and down along the limiting sliding shaft is arranged at the bottom of the sliding bottom plate.

2. The plectrum silk screen automatic feeding equipment according to claim 1, wherein: the adjusting male die bottom plate is provided with an adjusting screw, and the adjusting screw penetrates through the adjusting male die bottom plate and abuts against the sliding bottom plate.

3. The plectrum silk screen automatic feeding equipment according to claim 1, wherein: the vacuum cavity is formed between the adjusting male die and the adjusting male die bottom plate, an air suction channel is arranged in the adjusting male die and is respectively communicated with the vacuum cavity and the setting plectrum cavity, and the vacuum cavity is connected with the negative pressure valve through an air pipe.

4. The plectrum silk screen automatic feeding equipment according to claim 1, wherein: the feeding plate is provided with a feeding hole, the adjusting male die is provided with a protrusion, and the protrusion is arranged in the feeding hole to form the dial plate placing cavity.

5. The plectrum silk screen automatic feeding equipment according to claim 1, wherein: a gap is arranged between the discharging plate and the feeding plate, and the interval of the gap is smaller than the thickness of the poking piece.

6. The plectrum silk screen automatic feeding equipment according to claim 1, wherein: the feeding plate is rectangular and comprises a feeding area and a non-feeding area, and the placing pulling piece cavity is arranged in the feeding area, and the feeding area and the non-feeding area correspond to the discharging plate in turn.

7. The plectrum silk screen printing autoloading equipment of claim 6, wherein: the feeding plate is provided with a supporting rod at a non-feeding area, and the lower end of the supporting rod is in sliding connection with the guide rail.

8. The plectrum silk screen automatic feeding equipment according to claim 1, wherein: the feeding driving mechanism comprises a sliding rail base plate arranged on the base, a guide rail arranged on the sliding rail base plate, a sliding table arranged at the bottom of the sliding base plate and a feeding air cylinder connected with the feeding plate, wherein the sliding table is in sliding fit with the guide rail, the feeding air cylinder is fixed on a feeding air cylinder seat, and the feeding air cylinder seat is fixed on the base.

9. The plectrum silk screen automatic feeding equipment according to claim 1, wherein: a supporting plate is arranged between the discharging plate and two sides of the base.

10. The plectrum silk screen automatic feeding equipment according to claim 1, wherein: the depth of the cavity for placing the plectrum is the same as the thickness of the plectrum.