CN217990453U - Automatic material collecting device of material area - Google Patents

Abstract

The utility model provides an automatic material collecting device of material area, including base and the coil stock subassembly of setting on the base, blank subassembly and control cabinet, can switch 2 coil stock subassemblies on the receipts material mount pad through rodless cylinder on the base, the coil stock motor drives the rotatory material of receiving of coil stock dish, evenly be equipped with reverse buckle on the coil stock dish, the supplementary pay-off motor of blank subassembly is connected with supplementary pay-off gyro wheel, be equipped with the cutting off sword that corresponds with supplementary pay-off gyro wheel on the gas claw that cuts off the gas claw cylinder, a coil stock dish is full-load after, automatic cutout material area and supplementary pay-off another coil stock dish of feeding. This automatic material collecting device of material area's advantage lies in: the coil stock tray can be replaced quickly and effectively, the influence of replacing the coil stock tray on the work of the production line is reduced, and manpower and time for recovering and shaping a large amount of processing materials are saved.

Description

Automatic material collecting device of material area

Technical Field

The utility model relates to a material recycling plastic field especially relates to an automatic material collecting device of material area.

Background

Many miniature metal stamping parts are all that the metal material area passes through stamping equipment stamping forming, and the material band waste material after the processing all is generally stacked in disorder everywhere, occupies a large amount of areas of mill, has great potential safety hazard, has also increased the recovery degree of difficulty simultaneously. A part of factories with the waste materials are also manually and simply treated, and after the end parts of the waste materials are fixed with the rotary coil trays, the rotary coil trays drive the material strips to surround the coil trays, so that a large amount of labor is wasted by fixing the end parts of the waste materials with the rotary coil trays. And the stamping speed of the material belt is high, the manual recovery of the waste materials usually requires frequent shutdown for replacing the coil trays, the frequent shutdown for replacing the coil trays can influence the working process of the production line, the production line is forced to pause for working, and the working efficiency of the production line is influenced.

Therefore, in order to solve the above problems, it is necessary to optimize the material strip waste recycling and sorting device, which not only consumes much labor and time, but also affects the working efficiency of the production line.

Disclosure of Invention

The utility model aims at providing a withdraw the waste material to the above-mentioned manual work and change the condition that coiling dish time overlength influences assembly line work efficiency, provide the automatic material collecting device of a material area.

The technical scheme of the utility model as follows, include:

an automatic material receiving device for a material web, characterized in that said device comprises: the base, set up coil stock subassembly, blank subassembly and the control cabinet on the base.

The base includes the fixing base and establishes the receipts material mount pad in the fixing base top, is equipped with horizontal rodless cylinder on the fixing base, is equipped with lateral motion's guide seat on the rodless cylinder, and the guide seat is connected with the bottom of receiving the material mount pad, receives the centre of material mount pad to be equipped with the coil stock axle mount pad.

The coil stock subassembly is equipped with 2, and 2 coil stock subassemblies correspond and establish at the both ends of receiving the material mount pad, and the coil stock subassembly is connected with the coil stock axle through speed reduction unit including establishing the coil stock motor on receiving the material mount pad in the pivot of coil stock motor, and the one end of coil stock axle is passed through the bearing and is connected with coil stock axle mount pad, and the other end is equipped with fore-and-aft coil stock dish, evenly is equipped with reverse buckle on the coil stock dish.

The blank subassembly is including establishing the fore-and-aft portal frame on the fixing base, and the top of portal frame is equipped with supplementary feeding motor in proper order and cuts off the gas claw cylinder, and the pivot of supplementary feeding motor is connected with supplementary pay-off gyro wheel through transmission assembly, cuts off to be equipped with the cutting off sword that corresponds with supplementary pay-off gyro wheel on the gas claw of gas claw cylinder, and the cutting off sword is established in the top of coiling dish.

The control console is respectively connected with the coil stock assembly and the cutting assembly through circuits.

Furthermore, a longitudinal pushing cylinder is arranged on the portal frame, the pushing cylinder is arranged on the feeding side of the coil stock tray, the central shaft of the pushing cylinder is equal to the central shaft of the coil stock shaft in height, and a pushing plate is arranged on a guide rod of the pushing cylinder.

Further, the material pushing plate is an elastic material pushing plate.

Furthermore, a material sensor corresponding to the coil plate is arranged on the portal frame, and the material sensor is arranged below the material pushing cylinder.

Furthermore, the auxiliary feeding rollers are arranged on the feeding side of the cutting knife in pairs, and the auxiliary feeding motor drives the auxiliary feeding rollers to rotate through the transmission gear set.

Furthermore, an arc-shaped material guide plate is arranged at the tail end of the cutting knife along the feeding direction.

Furthermore, the cross-sectional area of the material guide plate is U-shaped.

Furthermore, the feeding side of the portal frame is provided with a metal rod connected with an electric loop of the coil motor.

Furthermore, a full material sensing device connected with the control console is arranged on the portal frame.

Furthermore, the two sides of the top end of the fixed seat are respectively provided with a transverse guide rail, and the bottom end of the material receiving installation seat is provided with a sliding block matched with the guide rails.

An automatic material collecting device of material area, including base and the coil stock subassembly of setting on the base, blank subassembly and control cabinet, can switch 2 coil stock subassemblies on the receipts material mount pad through rodless cylinder on the base, the coil stock motor drives the rotatory material of receiving of coil stock dish, evenly be equipped with reverse buckle on the coil stock dish, the supplementary pay-off motor of blank subassembly is connected with supplementary pay-off gyro wheel, be equipped with the cutting off sword that corresponds with supplementary pay-off gyro wheel on the gas claw that cuts off the gas claw cylinder, be used for when a coil stock dish full-load back, automatic cutout material area and supplementary pay-off another coil stock dish of feeding. This automatic material collecting device of material area's advantage lies in: the coil stock tray can be replaced quickly and effectively, the influence of replacing the coil stock tray on the work of the production line is reduced, and manpower and time for recovering and shaping a large amount of processing materials are saved.

Drawings

In order to more clearly illustrate the technical solution of the embodiment of the present invention, the drawings used in the description of the embodiment will be briefly introduced below; it is obvious that the drawings in the following description are some embodiments of the invention, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

Fig. 1 is a front view of the automatic material receiving device for material belt of the present invention.

Fig. 2 is a right cross-sectional view of the automatic material receiving device for material belt of the present invention.

Fig. 3 is a left side sectional view of the blanking assembly in the automatic material receiving device for material belt provided by the present invention.

Detailed Description

The utility model provides a pair of automatic material collecting device of material area, for making the utility model discloses a purpose, technical scheme and effect are clearer, clear and definite, and it is right to refer to the attached drawing and to lift the embodiment below the utility model discloses further detailed description. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

The utility model provides a pair of automatic material collecting device of material area combines fig. 1, fig. 2, fig. 3 to show, include:

the automatic feeding device comprises a base 10, a coil stock assembly 20 arranged on the base 10, a cutting assembly 30 and a control console 40.

The base 10 includes fixing base 11 and establishes the receipts material mount pad 12 above fixing base 11, is equipped with horizontal rodless cylinder 13 on the fixing base 11, is equipped with lateral motion's guide 14 on the rodless cylinder 13, and guide 14 is connected with the bottom of receiving material mount pad 12, and the centre of receiving material mount pad 12 is equipped with material axle mount pad 121.

Coil stock subassembly 20 is equipped with 2, 2 coil stock subassemblies 20 correspond and establish the both ends at receipts material mount pad 12, coil stock subassembly 20 is including establishing the coil stock motor 21 on receiving material mount pad 12, the pivot of coil stock motor 21 is connected with coil stock axle 23 through speed reduction subassembly 22, speed reduction subassembly 22 can be deceleration strip transmission subassembly or speed reduction chain drive subassembly, the one end of coil stock axle 23 is passed through the bearing and is connected with coil stock axle mount pad 121, the other end is equipped with fore-and-aft coil stock dish 24, evenly be equipped with reverse buckle 241 on the coil stock dish 24, reverse buckle 241 can be with the breach department block in the material area after the punching press, and then drive the material area after the punching press and twine in coil stock dish 24, make material area tip after the punching press and coil stock dish 24 automatic connection, the manual work of putting into coil stock dish 24 with the tip has been saved, the production efficiency is improved, the manual work has been saved.

The cutting assembly 30 comprises a longitudinal portal frame 31 arranged on the fixed seat 11, the top end of the portal frame 31 is sequentially provided with an auxiliary feeding motor 32 and a cutting gas claw cylinder 33, a rotating shaft of the auxiliary feeding motor 32 is connected with an auxiliary feeding roller 35 through a transmission assembly 34, a cutting knife 36 corresponding to the auxiliary feeding roller 35 is arranged on a gas claw of the cutting gas claw cylinder 33, and the cutting knife 36 is arranged above the coil tray 24.

The console 40 is electrically connected with the material rolling assembly 20 and the material cutting assembly 30 respectively.

The material belt 50 is conveyed out of the punching device and reaches the material tray 24 along the auxiliary feeding roller 35 of the material cutting assembly 30, the auxiliary feeding motor 32 is in a closed state, and the material tray 24 is driven by the rotation of the material winding motor 21 to rotate for material collection. When the material is completely received by one of the reels 24, the cutting air claw cylinder 33 is activated, and the cutting blade 36 is moved relatively to cut the material web 50. Meanwhile, the rodless cylinder 13 and the auxiliary feeding motor 32 are started to drive the material receiving mounting seat 12 to move transversely, so that the other empty coil tray 24 reaches the material receiving position, the auxiliary feeding roller 35 enables the material belt 50 behind to be continuously conveyed to the next coil tray 24, and the corresponding coil motor 21 rotates to enable the material belt 50 to be connected with the coil tray 24 through the reverse buckle 241 for continuous material receiving. When one of the coil assemblies 20 works, the coil motor 21 of the other coil assembly 20 stops working, an operator can replace a full coil 24 into an empty coil without stopping the machine, the problem that the material coil is frequently stopped and replaced in the existing material belt stamping process is avoided, the production time of an assembly line occupied by manual replacement of the coil is reduced, in addition, the time for fixing the end part of the material belt and the coil is greatly saved, and the production efficiency is effectively improved.

Furthermore, in order to better enable the punched end of the material belt to be automatically connected with the material winding disc 24, a longitudinal material pushing cylinder 37 is arranged on the portal frame 31, the material pushing cylinder 37 is arranged on the incoming material side of the material winding disc 24, the central axis of the material pushing cylinder 37 is as high as the central axis of the material winding shaft 23, a material pushing plate 38 is arranged on a guide rod of the material pushing cylinder 37, and the material pushing cylinder 37 drives the material pushing plate 38 to push the punched end of the material belt to the material winding disc 24. The ejector plate 38 is preferably an elastic ejector plate. The portal frame 31 is provided with a material sensor 39 corresponding to the coil tray 24, the material sensor 39 is arranged below the material pushing cylinder 37, and the material sensor 39 can be an ultrasonic distance detection device. When the empty coil tray 24 reaches the receiving position, the auxiliary feeding roller 35 drives the material belt 50 to fall from the upper part of the coil tray 24, and when the empty coil tray 24 reaches the height of the material sensor 39, the material sensor 39 sends a signal to the material pushing cylinder 37 and the corresponding coil motor 21, the material pushing cylinder 37 drives the end part of the material belt 50 of the material pushing plate 38 to push towards the coil tray 24, so that the reverse buckle 241 on the coil tray 24 can be clamped with the notch of the punched material belt, meanwhile, the coil motor 21 rotates, the end part of the material belt 50 is tightly wound on the coil tray 24, the elastic material pushing plate 38 drives the material pushing cylinder 37 to retract after the end part of the material belt 50 is wound on the coil tray 24, and therefore, the phenomenon that the rigid material belt 50 cannot be effectively clamped with the reverse buckle 241 to stop can be avoided, the effective connection of the end part of the material belt 50 and the empty coil tray 24 is ensured, and the material receiving device can continuously work.

Specifically, the auxiliary feeding rollers 35 are arranged in pairs on the feeding side of the cutting knife 36, and the auxiliary feeding motor 32 drives the auxiliary feeding rollers 35 to rotate through the transmission gear set. The auxiliary feed rollers 35 arranged in pairs have a guiding effect on the material web 50, while the conveying friction on the material web 50 is increased, ensuring a continuous transport of the material web.

Specifically, an arc-shaped material guide plate 361 is arranged at the tail end of the cutting knife 36 along the feeding direction. The cross-sectional area of the material guide plate 361 is U-shaped. The material guide plate 361 has a function of guiding the material belt, so that the material belt 50 is dropped on the material tray 24, and when the material belt 50 is cut off and the material tray 24 is switched, the material belt 50 is conveyed on the material guide plate 361, thereby preventing the material belt 50 which is directly conveyed from interfering the switching of the material tray 24 and ensuring the continuous operation of the material receiving device.

Specifically, a metal rod 311 connected with an electric loop of the coiling motor 21 is arranged on the feeding side of the gantry 31. Because the punching equipment is used for intermittently conveying the material belt while punching, the material rolling motor 21 is used for continuously rolling the material, if the average conveying speed of the material belt 50 at the rear end of the punching equipment is higher than the material rolling speed of the material rolling motor 21, the material belt 50 contacts the metal rod 311 under the action of gravity, the metal rod 311 transmits a signal to the material rolling motor 21, the material rolling motor 21 is started, the material rolling motor 21 is enabled to intermittently receive the material, the material receiving speed of the material receiving device is enabled to be consistent with that of the whole punching line, and the production efficiency is improved.

Specifically, the gantry 31 is provided with a full material sensing device 312 connected with the console 40, and the full material sensing device 312 ensures the effective utilization of the coil trays and the continuous operation of the material receiving device.

Specifically, 11 top both sides of fixing base are equipped with horizontal guide rail 111 respectively, and guide rail 111 both ends are equipped with the stopper, avoid receiving material mount pad 12 from 11 top roll-offs of fixing base, receive the bottom of material mount pad 12 be equipped with guide rail 111 complex slider 122, make and receive the material mount pad motion steady, have increased material collecting device's stability.

To sum up, the utility model discloses a base 10 and the coil stock subassembly 20 of setting on base 10, blank subassembly 30 and control cabinet 40, can switch 2 coil stock subassemblies 20 on the receipts material mount pad 12 through rodless cylinder 13 on the base 10, coil stock motor 21 drives the rotatory receipts of coil stock dish 24 and expects, evenly be equipped with reverse buckle 241 on the coil stock dish 24, the supplementary feeding motor 32 of blank subassembly 30 is connected with supplementary pay-off gyro wheel 35, be equipped with the cutting off cutter 36 that corresponds with supplementary pay-off gyro wheel on cutting off the gas claw of gas claw cylinder 33, a coil stock dish 24 is full-load the back, the automatic material strip that cuts off and supplementary pay-off another coil stock dish of feeding. This automatic material collecting device of material area's advantage lies in: the coil stock tray can be replaced quickly and effectively, the influence of replacing the coil stock tray on the work of a production line is reduced, and a large amount of manpower and time for recycling and shaping treatment materials are saved.

It will be understood that modifications and variations are possible to those skilled in the art in light of the above teachings and that all such modifications and variations are considered to be within the purview of the invention as set forth in the appended claims.

Claims (10)

1. An automatic material receiving device for a material web, characterized in that said device comprises: the automatic feeding device comprises a base, a coil stock assembly, a cutting assembly and a control console, wherein the coil stock assembly, the cutting assembly and the control console are arranged on the base;

the base comprises a fixed seat and a material receiving installation seat arranged above the fixed seat, a transverse rodless cylinder is arranged on the fixed seat, a guide seat moving transversely is arranged on the rodless cylinder, the guide seat is connected with the bottom end of the material receiving installation seat, and a material winding shaft installation seat is arranged in the middle of the material receiving installation seat;

the number of the coil assemblies is 2, the 2 coil assemblies are correspondingly arranged at two ends of the material receiving mounting seat, each coil assembly comprises a coil motor arranged on the material receiving mounting seat, a rotating shaft of each coil motor is connected with a coil shaft through a speed reducing assembly, one end of each coil shaft is connected with the corresponding coil shaft mounting seat through a bearing, the other end of each coil shaft is provided with a longitudinal coil plate, and the coil plates are uniformly provided with reverse buckles;

the material cutting assembly comprises a longitudinal portal frame arranged on the fixed seat, an auxiliary feeding motor and a cutting gas claw cylinder are sequentially arranged at the top end of the portal frame, a rotating shaft of the auxiliary feeding motor is connected with an auxiliary feeding roller through a transmission assembly, a cutting knife corresponding to the auxiliary feeding roller is arranged on a gas claw of the cutting gas claw cylinder, and the cutting knife is arranged above the coil;

the control console is respectively connected with the coil stock assembly and the cutting assembly through circuits.

2. An automatic material receiving device for material strips as claimed in claim 1, characterized in that: the gantry is provided with a longitudinal pushing cylinder, the pushing cylinder is arranged on the incoming material side of the coil plate, the central shaft of the pushing cylinder is as high as the central shaft of the coil shaft, and a guide rod of the pushing cylinder is provided with a material pushing plate.

3. An automatic material receiving device for material strips as claimed in claim 2, characterized in that: the material pushing plate is an elastic material pushing plate.

4. An automatic material receiving device for material strips as claimed in claim 2, characterized in that: the portal frame is provided with a material sensor corresponding to the coil tray, and the material sensor is arranged below the material pushing cylinder.

5. An automatic material receiving device for material strips as claimed in claim 1, characterized in that: the auxiliary feeding rollers are arranged on the incoming material side of the cutting knife in pairs, and the auxiliary feeding motor drives the auxiliary feeding rollers to rotate through the transmission gear set.

6. An automatic material receiving device for material strips as claimed in claim 1, characterized in that: and an arc-shaped material guide plate is arranged at the tail end of the cutting knife along the feeding direction.

7. An automatic material receiving device for material strips as claimed in claim 6, characterized in that: the cross-sectional area of the material guide plate is U-shaped.

8. An automatic material receiving device for material strips as claimed in claim 1, characterized in that: and a metal rod connected with an electric loop of the coil motor is arranged on the feeding side of the portal frame.

9. An automatic material receiving device for material strips as claimed in claim 1, characterized in that: and the portal frame is provided with a full material sensing device connected with the control console.

10. An automatic material receiving device for material strips as claimed in claim 1, characterized in that: and two sides of the top end of the fixed seat are respectively provided with a transverse guide rail, and the bottom end of the material receiving installation seat is provided with a sliding block matched with the guide rails.

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