CN207771943U - A kind of aperture waste discharge transport mechanism applied to die-cutting device - Google Patents

Abstract

The utility model discloses a kind of aperture waste discharge transport mechanisms applied to die-cutting device, including transfer member, the end of the transfer member is fixedly connected with waste discharge component, the transfer member includes the side support plate being oppositely arranged, cross bar is equipped between the support plate, the cross bar is equipped at least two conveyor-belt apparatus, motor-driven drive shaft is also equipped between the side support plate, the drive shaft drives the conveyor-belt apparatus rotation, the end of the side support plate is equipped with installation position, the waste discharge component includes the fixed plate being oppositely arranged, crossbearer is equipped between the fixed plate, the middle part side of the crossbearer is equipped with sensor device, the other side opposite with sensor device is equipped with multiple gas blow pipes on the crossbearer, the fixed plate is mounted on installation position.The utility model uses sensor element to material tests, and using the mode waste discharge of compressed gas, effectively avoids the destruction to material itself, ensures the integrality of product, improves yield rate.

Description

A kind of aperture waste discharge transport mechanism applied to die-cutting device

Technical field

The utility model is related to machinery field more particularly to a kind of aperture waste discharge transport mechanisms applied to die-cutting device.

Background technology

Die-cutting machine is the important equipment that machine-shaping is packed after print, be mainly used for by printing or cardboard by cross cutting (it is complete it is disconnected, Half disconnected), impression and gold stamping operation, fitting, automatic waste discharge roll and be cut into scheduled shape, form product.

During the work time, the waste discharge after cross cutting is also critically important, and existing waste discharge transfer member is row after material transmission Useless member forward end is equipped with baffle, and after material reaches baffle confirmation, by waste discharge component actuation waste discharge, the degree of automation is poor, and Material after being die cut for part aperture needs, by the waste material discharge in hole, to be all made of pin type waste discharge in the past, i.e. waste discharge needle moves down Waste material discharge in hole is disclosed into a kind of die-cutting machine row such as the Chinese utility model patent of Publication No. CN206242160U Waste-removing device, its key points of the technical solution are that including：Rack, transfer station and transfer roller, wherein rack are equipped with oscillating deck, and transfer station is located at Transfer station is equipped with inlet scoop above rack, and transfer roller is located remotely from the other side of the transfer station of oscillating deck, pendulum is connected on oscillating deck Swing arm is connected with balancing point on swing arm, and balancing point is located above inlet scoop, and the waste material in aperture is discharged by adjusting balancing point, But during actual use, waste discharge needle can only probably determine the position of aperture, there will certainly be error, therefore waste discharge needle is very It is easy the position thorn other than aperture badly forming waste material, to reduce yield rate, wastes raw material.

In addition, material, during being sent to waste discharge needle, transmission of facility has vibrations, in transmission process, material holds Easily deviate, error occurs, can also influence the integrality of waste discharge, cause unnecessary waste.

Utility model content

In conjunction with the deficiencies in the prior art, the utility model provide it is a kind of be capable of it is accurate realize waste discharge work Aperture waste discharge transmission mechanism.

The purpose of this utility model is achieved through the following technical solutions：

A kind of aperture waste discharge transport mechanism applied to die-cutting device, including transfer member, the end of the transfer member It is fixedly connected with waste discharge component, the transfer member includes the side support plate being oppositely arranged, and cross bar is equipped between the support plate, The cross bar is equipped at least two conveyor-belt apparatus, and motor-driven drive shaft, institute are also equipped between the side support plate Stating drive shaft drives the conveyor-belt apparatus rotation, the end of the side support plate to be equipped with installation position, and the waste discharge component includes The fixed plate being oppositely arranged is equipped with crossbearer between the fixed plate, and the middle part side of the crossbearer is equipped with sensor device, described The other side opposite with sensor device is equipped with multiple gas blow pipes on crossbearer, and the fixed plate is mounted on installation position.

Further, the cross bar is equipped with loose slot, and the conveyor-belt apparatus, which is equipped with, to make it on loose slot The limiting structure of sliding.

Further, the number of the conveyor-belt apparatus is even number.

Further, the conveyor-belt apparatus includes main frame, and the end of the main frame is equipped with castor, the activity Wheel is driven by drive shaft, and the outside of the castor is equipped with conveyer belt.

Further, the main frame is upside-down trapezoid structure, and castor is equipped on each endpoint.

Further, concave cavity is equipped at the upper structural plane of the main frame, the conveyer belt is just covered in concave The side of the open side of cavity, the concave cavity is equipped with bleeding point, and several circular holes, the pumping are uniformly provided on the conveyer belt Gas port connects the inlet end of gas blow pipe by air pump.

Further, the crossbearer is equipped with groove, and the supporter that can be slided, the gas blow pipe are equipped in the groove On supporter.

Further, it is additionally provided with graduation mark on the crossbearer.

Further, it is equipped with strip-shaped hole on the fixed plate and installation position, is fixed by fastening bolt.

Further, the position of the gas outlet of the gas blow pipe is higher than the plane where conveyer belt upper surface.

The utility model has the beneficial effects that：

The utility model waste discharge by the way of gas blow pipe air blowing coordinates the position of sensor to identify and effectively avoids pair The destruction of material itself ensures the integrality of product, improves yield rate；Meanwhile it using the conveyer device of absorption type, being die cut During material conveys, being adsorbed on conveyer belt for being stablized moves ahead, and prevents die cut material to be subjected to displacement, ensures waste discharge work The normal operation of work improves working efficiency.

Description of the drawings

Fig. 1 is the plan structure for the aperture waste discharge transport mechanism applied to die-cutting device that the utility model embodiment provides Schematic diagram；

Fig. 2 is transmission parts in the aperture waste discharge transport mechanism applied to die-cutting device that the utility model embodiment provides Vertical view；

Fig. 3 is waste discharge component in the aperture waste discharge transport mechanism applied to die-cutting device that the utility model embodiment provides Front view；

Fig. 4 is the vertical view of Fig. 3；

Fig. 5 is the perspective structure figure of conveyor-belt apparatus in Fig. 2；

Fig. 6 is the vertical view of Fig. 5.

In figure：1, side support plate；2, cross bar；201, loose slot；3, conveyor-belt apparatus；301, main frame；302, movable Wheel；303, conveyer belt；304, concave cavity；305, bleeding point；306, circular hole；4, motor；5, drive shaft；6, installation position；7, solid Fixed board；8, crossbearer；801, groove；802, supporter；803, graduation mark；9, sensor device；10, gas blow pipe；11, bar shaped Hole.

Specific implementation mode

It is new below in conjunction with this practicality to keep the purpose, technical scheme and advantage of the utility model embodiment clearer Attached drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that is retouched The embodiment stated is the utility model a part of the embodiment, instead of all the embodiments.Usually here described in attached drawing and The component of the utility model embodiment shown can be arranged and be designed with a variety of different configurations.Therefore, below to attached The detailed description of the embodiments of the present invention provided in figure is not intended to limit claimed the scope of the utility model, It is merely representative of the selected embodiment of the utility model, instead of all the embodiments.Based on the embodiments of the present invention, originally The every other embodiment that field those of ordinary skill is obtained without making creative work, belongs to this practicality Novel protected range.

Fig. 1 shows the aperture waste discharge transport mechanism applied to die-cutting device that the utility model embodiment provides, such as Fig. 1 Shown, the aperture waste discharge transport mechanism applied to die-cutting device of the utility model includes transfer member, the end of transfer member It is fixedly connected with waste discharge component.

Further as shown in Fig. 2, transfer member includes the side support plate 1 being oppositely arranged, set that there are two horizontal between support plate 1 Bar 2, cross bar 2 are equipped with the conveyor-belt apparatus 3 of even number number, 8 specifically, in the present embodiment are provided with, wherein using 3 cooperating of each two conveyor-belt apparatus in journey, cooperation adjustment width its Main Basis cross cutting between two conveyor-belt apparatus 3 Depending on the width of material.

Further, drive shaft 5 is arranged across side support plate 1, and drive shaft 5 is driven by motor 4, and drives the transmission Band device 3 rotates.The end of side support plate 1 is equipped with installation position 6, and installation position 6 is equipped with strip-shaped hole 11.

As shown in Figure 3, Figure 4, Fig. 3 is that the aperture waste discharge applied to die-cutting device that the utility model embodiment provides transmits The front view of waste discharge component in mechanism, Fig. 4 are the vertical views of Fig. 3.Waste discharge component as shown in Figure 3-4 includes consolidating of being oppositely arranged Fixed board 7 also is provided with strip-shaped hole 11 in fixed plate 7, crossbearer 8, the middle part one of crossbearer 8 is additionally provided between the fixed plate 7 being oppositely arranged Side is equipped with sensor device 9, is equipped with multiple gas blow pipes 10, sensor device 9 with respect to the other side with sensor device 9 on crossbearer 8 For photoelectric sensor, the position of die cut material can be detected.

Referring again to Fig. 1 and Fig. 2, fixed plate 7 is fixed together by using bolt across strip-shaped hole 11 with installation position 6, The purpose of strip-shaped hole 11 be make installation position 6 and fixed plate 7 can be adjusted as needed in actual installation process transfer member with Spacing between waste discharge component.

Wherein, it is highly preferred that crossbearer 8 is equipped with groove 801, it is equipped with the supporter 802 that can be slided in groove 801, is blown Tracheae 10 is fixedly mounted on supporter 802.In use, gas blow pipe 10 can be according to needing the small of waste discharge in practical die cut material The distance in hole adjusts its width, using flexible.

More specifically, graduation mark 803 is additionally provided on crossbearer 8, according to the position for the gas blow pipe 10 that the distance of graduation mark 803 is adjusted Setting keeps it more accurate, improves working efficiency.

Wherein, it is equipped with loose slot 201 referring to Fig. 2 cross bars 2, conveyor-belt apparatus 3, which is equipped with, can make it in loose slot 201 The limiting structure of upper sliding, i.e., the restricted entry coordinated with loose slot 201, so that it is guaranteed that conveyor-belt apparatus 3 can be in 2 upper edge of cross bar Loose slot 201 slides axially, and the spacing of adjacent conveyor-belt apparatus 3 is adjusted with this, ensures the flexibility used.

As shown in Figure 5, Figure 6, Fig. 5 is the perspective structure figure of conveyor-belt apparatus 3 in Fig. 2；Fig. 6 is the vertical view of Fig. 5.Such as figure 5 and conveyor-belt apparatus shown in fig. 63 include main frame 301, the end of main frame 301 is equipped with castor 302, and castor 302 is logical Axis 5 of overdriving drives, and the outside of castor 302 is equipped with conveyer belt 303.

More specifically, main frame 301 is upside-down trapezoid structure, castor 302, the activity of bottom side are equipped on each endpoint It is driven by chain or gear connection between wheel 302 and transmission shaft, ensures the stability of operation.

It is further preferred that being equipped with concave cavity 304 at the upper structural plane of main frame 301, conveyer belt 303 just covers It is equipped with bleeding point 305 in the side of the open side of concave cavity 304, concave cavity 304, and both sides are equipped with bleeding point 305, pass It send and is uniformly provided with several circular holes 306 on band 303, bleeding point 305 connects the inlet end of gas blow pipe 10 by air pump (not shown).

Wherein, multiple bleeding points 305 can be connected in actual use, air pump is used to detach the sky in concave cavity 304 Gas makes die cut material is firm to be adsorbed on conveyer belt 303, ensures its stability in transmit process, it is ensured that waste discharge is yes Accuracy, meanwhile, the air detached is used for waste discharge process to the discharge of gas blow pipe 10, can also connect external air source, external gas Source connects inflatable mouth.

In actual use, the position of the gas outlet of gas blow pipe 10 is higher than the plane where 303 upper surface of conveyer belt, generally Distance is between 3-10mm, it can be ensured that the integrality of waste discharge in aperture.

When the utility model is used, individual die cut material enters on conveyer belt 303, air pump work, inflatable mouth connects outer Portion is generated adsorption capacity on conveyer belt 303, die cut material is adsorbed on conveyer belt 303 and is transported forward by the air source of solenoid valve control Row after sensor device 9 detects die cut material, transmits a signal to controller, and controller controls electromagnetism valve events, gas blow pipe 10 Gas by the aperture of die cut material waste material be discharged, die cut material enter next working procedure.

Finally it should be noted that：Above-described each embodiment is merely to illustrate the technical solution of the utility model, rather than It is limited；Although the utility model is described in detail with reference to the foregoing embodiments, those skilled in the art It should be understood that：It can still modify to the technical solution recorded in previous embodiment, or to which part or whole Technical characteristic carries out equivalent replacement；And these modifications or substitutions, it does not separate the essence of the corresponding technical solution the utility model The range of each embodiment technical solution.

Claims (10)

1. the end of a kind of aperture waste discharge transport mechanism applied to die-cutting device, including transfer member, the transfer member is solid Surely it is connected with waste discharge component, it is characterised in that：The transfer member includes the side support plate being oppositely arranged, between the support plate Equipped with cross bar, the cross bar is equipped at least two conveyor-belt apparatus, is also equipped between the side support plate motor-driven Drive shaft, the drive shaft drive the conveyor-belt apparatus rotation, the end of the side support plate to be equipped with installation position, the waste discharge Component includes the fixed plate being oppositely arranged, and crossbearer is equipped between the fixed plate, and the middle part side of the crossbearer is equipped with sensor Device, the other side opposite with sensor device is equipped with multiple gas blow pipes on the crossbearer, and the fixed plate is mounted on installation position.

2. being applied to the aperture waste discharge transport mechanism of die-cutting device as described in claim 1, it is characterised in that：On the cross bar Equipped with loose slot, the conveyor-belt apparatus, which is equipped with, can make the limiting structure that it is slided on loose slot.

3. being applied to the aperture waste discharge transport mechanism of die-cutting device as described in claim 1, it is characterised in that：The conveyer belt The number of device is even number.

4. being applied to the aperture waste discharge transport mechanism of die-cutting device as claimed in claim 3, it is characterised in that：The conveyer belt Device includes main frame, and the end of the main frame is equipped with castor, and the castor is driven by drive shaft, the castor Outside be equipped with conveyer belt.

5. being applied to the aperture waste discharge transport mechanism of die-cutting device as claimed in claim 4, it is characterised in that：The main frame For upside-down trapezoid structure, castor is equipped on each endpoint.

6. being applied to the aperture waste discharge transport mechanism of die-cutting device as claimed in claim 5, it is characterised in that：The main frame Upper structural plane at be equipped with concave cavity, the conveyer belt is just covered in the open side of concave cavity, the concave cavity Side is equipped with bleeding point, is uniformly provided with several circular holes on the conveyer belt, the bleeding point by air pump connect gas blow pipe into Gas end.

7. being applied to the aperture waste discharge transport mechanism of die-cutting device as described in claim 1, it is characterised in that：On the crossbearer Equipped with groove, the supporter that can be slided is equipped in the groove, the gas blow pipe is mounted on supporter.

8. the use as claimed in claim 7 in the aperture waste discharge transport mechanism of die-cutting device, it is characterised in that：On the crossbearer It is additionally provided with graduation mark.

9. being applied to the aperture waste discharge transport mechanism of die-cutting device as described in claim 1, it is characterised in that：The fixed plate With strip-shaped hole is equipped on installation position, fixed by fastening bolt.

10. being applied to the aperture waste discharge transport mechanism of die-cutting device as described in claim 1, it is characterised in that：The air blowing The position of the gas outlet of pipe is higher than the plane where conveyer belt upper surface.