CN217199146U - Control integrated automatic formula intelligence feeder of cutting - Google Patents

Abstract

The utility model discloses a control integrated automatic formula intelligence feeder that cuts, include: the cutting device comprises a bottom plate, a main vertical plate arranged on the bottom plate, a first discharging assembly arranged on one side of the main vertical plate, a second discharging assembly arranged on the other side of the main vertical plate, a clamping and feeding assembly arranged at the rear ends of the first discharging assembly and the second discharging assembly, a cutting assembly arranged on the clamping and feeding assembly, and a front clamping assembly arranged at one end of the bottom plate, wherein the cutting assembly is arranged on one side of the front clamping assembly facing the front. The utility model discloses a material area of centre gripping pay-off subassembly on to first blowing subassembly and second blowing subassembly simultaneously carries out the centre gripping and transports to cut through cutting assembly, with this realization about the automatic full automatization synchronous operation feed that cuts of integration, the feed of guaranteeing the left and right sides and cutting efficiency unanimous, be favorable to the control to cut specifications such as length of back material, guarantee precision and feed quality, save space simultaneously, improve space utilization.

Description

Control integrated automatic formula intelligence feeder of cutting

Technical Field

The utility model relates to an automatic, the automatic label feeder technical field of nonstandard, especially, relate to an integrated automatic formula intelligence feeder that cuts about.

Background

Label Feeder, Label supply Feeder, and the like. Labelers, stickers, or automated non-standard equipment may pick and apply label material from a label feeder more efficiently and accurately than manual application, with automation achieved by reducing manual operations. The feeders in the current market need to distinguish left and right machines, only can realize control of a single left machine or a single right machine, cannot realize synchronous and centralized operation of the left and right machines, need to debug extension machines, and increase the complexity of control of the feeders; the production cost of the feeder is greatly improved, the single machine runs, and the production efficiency is low; the occupied space is large, and the working efficiency is not high.

Accordingly, the prior art is deficient and needs improvement.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the not enough of prior art, provide an integrated automatic formula intelligence feeder of cutting about.

The technical scheme of the utility model as follows: the utility model provides an integrated automatic formula intelligence feeder of cutting about, includes: the cutting device comprises a bottom plate, a main vertical plate arranged on the bottom plate, a first discharging assembly arranged on one side of the main vertical plate, a second discharging assembly arranged on the other side of the main vertical plate, a clamping and feeding assembly arranged at the rear ends of the first discharging assembly and the second discharging assembly, a cutting assembly arranged on the clamping and feeding assembly, and a front clamping assembly arranged at one end of the bottom plate, wherein the cutting assembly is arranged on one side of the front clamping assembly, and the main vertical plate is arranged on the central line of the bottom plate.

Further, the centre gripping pay-off subassembly includes: set up in removal module on the bottom plate, set up in two sets of centre gripping supports on the motion end of removal module, set up in the punch holder at centre gripping support top, set up in centre gripping cylinder on the centre gripping support, set up in ejector pad and cover on the output of centre gripping cylinder are located lower plate on the output of centre gripping cylinder, the punch holder correspond the lower plate be provided with the splint support lower plate articulates on the splint support, and is two sets of be provided with cutting assembly on the centre gripping support respectively.

Further, the cutting assembly includes: the cutting device comprises a cylinder support, a cutting cylinder and a cutting blade, wherein the cylinder support is arranged on the clamping feeding assembly, the cutting cylinder is arranged on the cylinder support, the cutting blade is arranged on the output end of the cutting cylinder, and the cutting cylinder drives the cutting blade to move up and down repeatedly.

Further, the edge part of the cutting blade is serrated.

Further, the preceding material clamping subassembly includes: the feeding device comprises a side vertical plate arranged at one end of a bottom plate, two feeding cylinders arranged on the outer side of the side vertical plate, two lower feeding cylinders arranged on the inner side of the side vertical plate, an upper feeding plate arranged on the output end of the feeding cylinders, and a lower feeding plate arranged on the output end of the lower feeding cylinders, wherein the feeding cylinders drive the feeding plate to reciprocate up and down, the lower feeding cylinders drive the lower feeding plate to reciprocate up and down, and the setting position of each group of feeding plates corresponds to the setting position of the lower feeding plate.

Furthermore, the edge of the lower material clamping plate is provided with a glue pressing roller.

Furthermore, the side vertical plates are respectively provided with a buffer component corresponding to the upper material clamping plate and the lower material clamping plate.

Furthermore, material guide wheel assemblies are arranged beside the first material placing assembly and the second material placing assembly.

Furthermore, the side of the first discharging component and the side of the second discharging component are both provided with a counterweight wheel component.

According to the above technical scheme, the utility model discloses a material area that centre gripping pay-off subassembly was simultaneously on first blowing subassembly and the second blowing subassembly carries out the centre gripping and transports to cut through cutting assembly, with this realization about integrated automatic full automatization synchronous operation feed that cuts, the feed of guaranteeing the left and right sides and cutting efficiency unanimous, be favorable to the control to cut the specification such as length of back material, guarantee precision and feed quality, save space simultaneously, improve space utilization.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of a clamping and feeding assembly.

Fig. 3 is a first structural schematic diagram of the front clamping assembly.

Fig. 4 is a schematic structural diagram of the front clamping assembly.

Detailed Description

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

Referring to fig. 1, the present invention provides a left-right integrated automatic cutting type intelligent feeder, which includes: the device comprises a bottom plate 1, a main vertical plate 2 arranged on the bottom plate 1, a first discharging assembly 31 arranged on one side of the main vertical plate 2, a second discharging assembly 32 arranged on the other side of the main vertical plate 2, a clamping and feeding assembly 4 arranged at the rear ends of the first discharging assembly 31 and the second discharging assembly 32, a cutting assembly 5 arranged on the clamping and feeding assembly 4, and a front clamping assembly 6 arranged at one end of the bottom plate 1. The cutting assembly 5 is arranged on one side facing the front material clamping assembly 6. The main vertical plate 2 is arranged on the center line of the bottom plate 1. Before working, the coil materials are respectively sleeved on the first discharging component 31 and the second discharging component 32, and then the material belts of the two groups of coil materials extend out to pass through the clamping position of the clamping feeding component 4. When the material clamping and feeding device works, the clamping and feeding component 4 clamps the two groups of material belts and moves towards the direction of the forward material clamping component 6. Preceding material clamping component 6 carries out the centre gripping with the material area that centre gripping pay-off subassembly 4 transported, then centre gripping pay-off subassembly 4 loosens the material area to move and press from both sides tightly the material area once more behind the cutting position of settlement. The material taking mechanism of the downstream chip mounter moves to a preset position and sucks or picks up materials, and meanwhile, the cutting assembly 5 is started to cut off the material belt, so that the cut materials can be taken away and mounted conveniently by the material taking mechanism. After cutting, the clamping and feeding assembly 4 moves towards the front material clamping assembly 6 again, and the next group of feeding processes are carried out.

Referring to fig. 2, the clamping and feeding assembly 4 includes: the clamping device comprises a moving module 41 arranged on the bottom plate 1, two groups of clamping brackets 42 arranged on the moving end of the moving module 41, an upper clamping plate 43 arranged at the top of the clamping bracket 42, a clamping cylinder 44 arranged on the clamping bracket 42, a push block 45 arranged on the output end of the clamping cylinder 44, and a lower clamping plate 46 sleeved on the output end of the clamping cylinder 44. The upper clamping plate 43 is provided with a clamping plate bracket corresponding to the lower clamping plate 46, and the lower clamping plate 46 is hinged on the clamping plate bracket. And the two groups of clamping brackets 42 are respectively provided with a cutting assembly 5. When the material belt is clamped, the clamping cylinder 44 retracts, the lower clamping plate 46 is pushed by the push block 45, the lower clamping plate 46 rotates around the hinge position, the top of the lower clamping plate 46 is attached to the bottom of the upper clamping plate 43, and clamping action is achieved. By arranging the two groups of clamping supports 42 and arranging the corresponding upper clamping plate 43 and the corresponding lower clamping plate 46 on each group of clamping supports 42, the requirement for clamping the material belts provided by the first discharging assembly 31 and the second discharging assembly 32 simultaneously is met, and the feeding efficiency is improved.

The cutting assembly 5 comprises: the cutting device comprises a cylinder support 51 arranged on the clamping and feeding assembly 4, a cutting cylinder 52 arranged on the cylinder support 51, and a cutting blade 53 arranged on the output end of the cutting cylinder 52. The cutting cylinder 52 drives the cutting blade 53 to reciprocate up and down. The material belt is clamped through the front clamping component 6 and the clamping feeding component 4, the material belt is in a tightened state, the cutting cylinder 52 is started, the cutting blade 53 is driven to move upwards, the material belt is cut off, and a material taking mechanism can take materials and label the material belt conveniently.

The cutting blade 53 has a serrated edge, so that the cutting effect and the cutting efficiency of the material belt are improved, and the tangent plane is kept flat.

Referring to fig. 3 and 4, the front clamping assembly 6 includes: the feeding device comprises a side vertical plate 61 arranged at one end of a bottom plate 1, two upper clamping cylinders 62 arranged at the outer side of the side vertical plate 61, two lower clamping cylinders 63 arranged at the inner side of the side vertical plate 61, an upper clamping plate 621 arranged at the output end of the upper clamping cylinders 62, and a lower clamping plate 631 arranged at the output end of the lower clamping cylinders 63. The upper material clamping cylinder 62 drives the upper material clamping plate 621 to reciprocate up and down. The lower material clamping cylinder 63 drives the lower material clamping plate 631 to reciprocate up and down. The setting position of the upper material clamping plate 621 corresponds to the setting position of the lower material clamping plate 631. When the front end of the material belt is conveyed to the corresponding position of the front material clamping assembly 6 by the clamping and feeding assembly 4, the upper material clamping cylinder 62 and the lower material clamping cylinder 63 are simultaneously started to respectively drive the upper material clamping plate 621 and the lower material clamping plate 631 to move towards the direction of the material belt, so that the front end of the material belt is clamped by the upper material clamping plate 621 and the lower material clamping plate 631.

The edge of lower clamp flitch 631 is provided with moulding gyro wheel 632, when satisfying the tight demand of clamp, avoids causing the damage to the material.

The side vertical plate 61 is provided with the buffer components 64 corresponding to the upper material clamping plate 621 and the lower material clamping plate 631 respectively, so that the damage to the upper material clamping plate 621 or the lower material clamping plate 631 caused by collision in the moving process is avoided, and meanwhile, the damage to the materials is also avoided.

First blowing subassembly 31 and second blowing subassembly 32 side all are provided with guide wheel subassembly 7, are convenient for lead the material area, help making the material area be in the state of straining simultaneously, make things convenient for cutting assembly 5 to cut off the material area.

The side of the first discharging component 31 and the second discharging component 32 is provided with a balance weight wheel component 8, and pressure is applied to the material belt through the balance weight wheel component 8, so that the material belt is ensured to be in a tight state, and the requirements of feeding and cutting are met.

To sum up, the utility model discloses a material area that centre gripping pay-off subassembly was simultaneously on first blowing subassembly and the second blowing subassembly carries out the centre gripping and transports to cut through cutting assembly, with this realization about integrated automatic full automatization synchronous operation feed that cuts, the feed of guaranteeing the left and right sides and cut efficiency unanimously, be favorable to the control to cut the specification such as length of back material, guarantee precision and feed quality, save space simultaneously, improve space utilization.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. The utility model provides a control integrated automatic formula intelligence feeder of cutting which characterized in that includes: the cutting device comprises a bottom plate, a main vertical plate arranged on the bottom plate, a first discharging assembly arranged on one side of the main vertical plate, a second discharging assembly arranged on the other side of the main vertical plate, a clamping and feeding assembly arranged at the rear ends of the first discharging assembly and the second discharging assembly, a cutting assembly arranged on the clamping and feeding assembly, and a front clamping assembly arranged at one end of the bottom plate, wherein the cutting assembly is arranged on one side of the front clamping assembly, and the main vertical plate is arranged on the central line of the bottom plate.

2. The left-right integrated automatic guillotine smart feeder of claim 1, wherein the clamp feed assembly comprises: set up in removal module on the bottom plate, set up in two sets of centre gripping supports on the motion end of removal module, set up in the punch holder at centre gripping support top, set up in centre gripping cylinder on the centre gripping support, set up in ejector pad and cover on the output of centre gripping cylinder are located lower plate on the output of centre gripping cylinder, the punch holder correspond the lower plate be provided with the splint support lower plate articulates on the splint support, and is two sets of be provided with cutting assembly on the centre gripping support respectively.

3. The left-right integrated automatic cutting smart feeder of claim 1, wherein the cutting assembly comprises: the cutting device comprises a cylinder support, a cutting cylinder and a cutting blade, wherein the cylinder support is arranged on the clamping feeding assembly, the cutting cylinder is arranged on the cylinder support, the cutting blade is arranged on the output end of the cutting cylinder, and the cutting cylinder drives the cutting blade to move up and down repeatedly.

4. The left-right integrated auto-cutting smart feeder of claim 3, wherein the cutting edge of the cutting blade is serrated.

5. The left-right integrated automatic cutting intelligent feeder of claim 1, wherein the front material clamping assembly comprises: the feeding device comprises a side vertical plate arranged at one end of a bottom plate, two feeding cylinders arranged on the outer side of the side vertical plate, two lower feeding cylinders arranged on the inner side of the side vertical plate, an upper feeding plate arranged on the output end of the feeding cylinders, and a lower feeding plate arranged on the output end of the lower feeding cylinders, wherein the feeding cylinders drive the feeding plate to reciprocate up and down, the lower feeding cylinders drive the lower feeding plate to reciprocate up and down, and the setting position of each group of feeding plates corresponds to the setting position of the lower feeding plate.

6. The left-right integrated automatic cutting type intelligent feeder according to claim 5, wherein the edge of the lower material clamping plate is provided with a glue pressing roller.

7. The left-right integrated automatic cutting type intelligent feeder according to claim 5, wherein the side vertical plates are respectively provided with a buffer component corresponding to the upper material clamping plate and the lower material clamping plate.

8. The left-right integrated automatic cutting type intelligent feeder according to claim 1, wherein material guide wheel assemblies are arranged beside the first feeding assembly and the second feeding assembly.

9. The left-right integrated automatic cutting type intelligent feeder according to claim 1, wherein a weight wheel assembly is arranged beside each of the first feeding assembly and the second feeding assembly.

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