CN212117311U

CN212117311U - Automatic punching mechanism for shoemaking in batches

Info

Publication number: CN212117311U
Application number: CN201922459952.0U
Authority: CN
Inventors: 黄超
Original assignee: Suzhou Jingro Technology Co Ltd
Current assignee: Suzhou Jingro Technology Co Ltd
Priority date: 2019-12-31
Filing date: 2019-12-31
Publication date: 2020-12-11
Anticipated expiration: 2029-12-31

Abstract

The utility model discloses a batch automatic punching mechanism for shoemaking, which comprises a frame, wherein a main mounting plate is fixed in the middle of the top surface of a top plate of the frame, an electric heating plate is fixed on the top surface of the main mounting plate, and a guide reinforcing plate is fixed on the top surface of the electric heating plate; the top surface of the roof of frame is fixed with die-cut support frame, and the top surface middle part of the roof of die-cut support frame is fixed with the punching press cylinder, and the bottom surface of the roof of die-cut support frame is passed to the push rod of punching press cylinder and is fixed with the lifter plate, and the bottom surface of lifter plate is fixed with down the connecting plate, and the bottom surface of lower connecting plate is equipped with a plurality of die-cut mould boards, and the bottom surface shaping of die-cut mould board has a plurality of cutting tool, and the cutting tool is facing to the cladding of carrying on. The utility model discloses can carry the cladding in succession and carry out the punching press cutting, its is efficient, and is effectual.

Description

Automatic punching mechanism for shoemaking in batches

The technical field is as follows:

the utility model relates to a shoes preparation technical field, more specifically the automatic die-cutting mechanism in shoemaking batch that says so.

Background art:

present shoes need cut out a plurality of shoes type pieces to the cladding according to the shoes type when making, and current mode is artifical to place the cladding at the processing bench, pushes down through cutting tool and cuts, then, and the manual work is taken off cladding and shoes type piece, and its is inefficient, and the effect is poor.

The utility model has the following contents:

the utility model aims at overcoming the not enough of prior art, providing a shoemaking is automatic die-cut mechanism in batches, it can carry the cladding in succession to carry out the punching press cutting, and it is efficient, effectual.

The utility model provides a technical problem's scheme is:

a batch automatic punching mechanism for shoemaking comprises a rack, wherein a main mounting plate is fixed in the middle of the top surface of a top plate of the rack, an electric heating plate is fixed on the top surface of the main mounting plate, and a guide reinforcing plate is fixed on the top surface of the electric heating plate;

the top surface of the roof of frame is fixed with die-cut support frame, and the top surface middle part of the roof of die-cut support frame is fixed with the punching press cylinder, and the bottom surface of the roof of die-cut support frame is passed to the push rod of punching press cylinder and is fixed with the lifter plate, and the bottom surface of lifter plate is fixed with down the connecting plate, and the bottom surface of lower connecting plate is equipped with a plurality of die-cut mould boards, and the bottom surface shaping of die-cut mould board has a plurality of cutting tool, and the cutting tool is facing to the cladding of carrying on.

The bottom surface shaping of connecting plate has a plurality of buffering recesses down, and lower buffer board plug bush is in buffering recess, and the bottom surface shaping of lower buffer board has spacing mounting panel, and the bottom surface of spacing mounting panel is fixed with die-cut mould board, and the top surface of lower buffer board is fixed with a plurality of buffer spring, and buffer spring's top is fixed on the top surface of buffering recess.

The outer side edge of the limiting mounting plate faces the bottom surface of the edge of the lower connecting plate.

A plurality of guide rods are fixed on the top surface of the lifting plate, and the guide rods are inserted in guide through holes formed in a top plate of the punching support frame.

The self-lubricating sleeve is fixed on the inner side wall of the guide through hole, the guide rod is inserted in the self-lubricating sleeve, the spring is inserted on the guide rod, the top end of the spring exerts force on the bottom surface of the top plate of the punching support frame, and the bottom end of the spring exerts force on the top surface of the lifting plate.

The left part and the right part of the top surface of the top plate of the rack are provided with driving conveying mechanisms;

drive conveying mechanism includes four backup pads, the front portion and the rear portion of the left and right sides of the top surface of the roof of frame are fixed to four backup pads, the both ends of drive roller pass through the bearing and articulate in left two backup pads, the both ends of driving roller pass through the bearing and articulate in two backup pads on right side, the below of drive roller is equipped with drive tensioning roller, the below of driving roller is equipped with transmission tensioning roller, drive tensioning roller and transmission tensioning roller all articulate in the backup pad that corresponds through the bearing, the left part of cladding is in between drive roller and the drive tensioning roller, the right part of cladding is in between driving roller and the transmission tensioning roller.

The outer side walls of the two supporting plates are respectively fixed with a driving motor, an output shaft of each driving motor is a spline shaft, and the spline shafts are inserted in spline holes formed in one ends of the corresponding driving rollers or the corresponding driving rollers.

The one end of drive tensioning roller or transmission tensioning roller stretches out corresponding backup pad and is fixed with the rolling disc, the limit portion of the outer terminal surface of rolling disc is fixed with the location arch, the top surface of the roof of frame is fixed with vertical board with the department that corresponds of rolling disc, be fixed with meter rice sensor on the vertical board, meter rice sensor's response end is corresponding with the location arch, the left side top surface of the roof of frame is fixed with the side connecting plate, the top surface of side connecting plate is fixed with electron meter rice controller, meter rice sensor's electric connecting wire is connected with the control mainboard electricity of electron meter rice controller.

The utility model discloses an outstanding effect is: compared with the prior art, the automatic leather cutting machine can continuously convey leather to perform stamping cutting, and is high in efficiency and good in effect. Simultaneously, its electric heating plate that has can preheat the cladding of its top, prevents that the cladding shrink from seriously, guarantees that the size of cladding cutting reaches the requirement, and it can move meter rice to the cladding moreover, guarantees the normal transport and the normal processing of cladding.

Description of the drawings:

fig. 1 is a partial structural schematic diagram of the present invention;

fig. 2 is a partial left side view of the present invention;

fig. 3 is a partially enlarged view of fig. 1.

The specific implementation mode is as follows:

in the embodiment, as shown in fig. 1 to 3, an automatic batch punching mechanism for shoemaking comprises a frame 10, wherein a main mounting plate 11 is fixed in the middle of the top surface of the top plate of the frame 10, an electric heating plate 12 is fixed on the top surface of the main mounting plate 11, and a guide reinforcing plate 13 is fixed on the top surface of the electric heating plate 12;

a punching support frame 14 is fixed on the top surface of the top plate of the frame 10, a punching cylinder 15 is fixed in the middle of the top surface of the top plate of the punching support frame 14, a push rod of the punching cylinder 15 penetrates through the bottom surface of the top plate of the punching support frame 14 and is fixed with a lifting plate 16, a lower connecting plate 17 is fixed on the bottom surface of the lifting plate 16, a plurality of punching mold plates 18 are arranged on the bottom surface of the lower connecting plate 17, a plurality of cutting tools 181 are formed on the bottom surface of each punching mold plate 18, and the cutting tools 181 face the leather 100 conveyed on the guide reinforcing plate 13.

Furthermore, a plurality of buffer grooves 171 are formed in the bottom surface of the lower connecting plate 17, the lower buffer plate 19 is inserted into the buffer grooves 171, a limiting mounting plate 191 is formed on the bottom surface of the lower buffer plate 19, a punching die plate 18 is fixed to the bottom surface of the limiting mounting plate 191, a plurality of buffer springs 192 are fixed to the top surface of the lower buffer plate 19, and the top ends of the buffer springs 192 are fixed to the top surfaces of the buffer grooves 171.

Further, the outer side edge of the position limiting mounting plate 191 faces the bottom surface of the edge of the lower connecting plate 17.

Further, a plurality of guide rods 161 are fixed to the top surface of the lifting plate 16, and the guide rods 161 are inserted into guide through holes 141 formed in the top plate of the blanking support frame 14.

Furthermore, a self-lubricating sleeve 142 is fixed on the inner side wall of the guide through hole 141, the guide rod 161 is inserted in the self-lubricating sleeve 142, a spring 162 is inserted on the guide rod 161, the top end of the spring 162 is forced on the bottom surface of the top plate of the punching support frame 14, and the bottom end of the spring 162 is forced on the top surface of the lifting plate 16.

Further, the left part and the right part of the top surface of the top plate of the rack 10 are provided with a driving conveying mechanism 20;

drive conveying mechanism 20 includes four backup pads 21, the front portion and the rear portion of the left and right sides of the top surface of the roof of frame 10 are fixed to four backup pads 21, drive roller 22's both ends pass through the bearing and articulate on two left backup pads 21, the both ends of driving roller 23 pass through the bearing and articulate on two right backup pads 21, the below of drive roller 22 is equipped with drive tensioning roller 24, the below of driving roller 23 is equipped with transmission tensioning roller 25, drive tensioning roller 24 and transmission tensioning roller 25 all articulate on the backup pad 21 that corresponds through the bearing, the left part of cladding 100 is in between drive roller 22 and the drive tensioning roller 24, the left part centre gripping of cladding 100 is between drive roller 22 and drive tensioning roller 24, the right part of cladding 100 is in between driving roller 23 and driving roller 25, the right part centre gripping of cladding 100 is between driving roller 23 and transmission tensioning roller 25.

Further, the outer side walls of the two support plates 21 are fixed with driving motors 26, the output shafts of the driving motors 26 are spline shafts, and the spline shafts are inserted into spline holes formed in one ends of the corresponding driving rollers 22 or the corresponding driving rollers 23.

Further, one end of the driving tension roller 24 or the driving tension roller 25 extends out of the corresponding support plate 21 and is fixed with a rotating disc 27, a positioning protrusion 271 is fixed at the edge of the outer end face of the rotating disc 27, a vertical plate 28 is fixed at the position, corresponding to the rotating disc 27, of the top face of the top plate of the rack 10, a meter sensor 29 is fixed on the vertical plate 28, the sensing end of the meter sensor 29 corresponds to the positioning protrusion 271, a side connecting plate 1 is fixed on the top face of the left side of the top plate of the rack 10, an electronic meter controller 2 is fixed on the top face of the side connecting plate 1, and an electric connecting line of the meter sensor 29 is electrically connected with a control main board of the electronic meter controller 2.

The working principle is as follows: the two driving motors 26 are driven to operate synchronously, the driving roller 23 and the driving roller 22 operate simultaneously, so that the leather 100 is conveyed horizontally, after the part to be cut is positioned on the top surface of the guide reinforcing plate 13, the leather 100 is preheated through the electric heating plate 12 to ensure that the leather 100 is flat and does not shrink, then the lifting plate 16 descends through the push rod of the stamping cylinder 15, so that the cutting tool 181 performs stamping cutting on the leather 100 conveyed on the guide reinforcing plate 13, wherein the cutting tool 181 is a shoe-shaped cutting blade, the interior of the cutting tool is a shoe-shaped groove, the leather 100 is cut through the descending of the cutting tool 181, the bottom surface cutting tool of the cutting tool 181 is provided with at least one notch, so that the cut shoe-shaped sheet is partially connected with the leather 100, the shoe-shaped sheet cannot be nested in the shoe-shaped groove, the cutting effect is good, and after the cutting is completed, the push rod of the stamping cylinder 15 retracts, and then the two driving motors 26 synchronously drive and operate to move the processed leather 100 to the right and extend, and then the leather 100 to be processed is positioned on the guide reinforcing plate 13 to be processed continuously.

When the structure is used, the shoe-shaped sheets can be taken out of the leather 100 only by shearing the parts of the cut shoe-shaped sheets which are still connected with the leather 100 by scissors or manually pulling the parts with power, so that the structure is very convenient.

When the leather 100 is conveyed, the sensing end of the meter counting sensor 29 corresponds to the positioning protrusion 271, so that counting is realized, and meter counting calculation can be performed on the leather 100.

In this embodiment, the operation of the electric heating plate 12, the driving motor 26 and the ram cylinder 15 is controlled by manually controlling corresponding controllers, the electromagnetic control valve and the air pump, which are communicated with the driving motor 26 and the ram cylinder 15, are electrically connected to the controller, and the controller, the air pump, the electromagnetic control valve and the like are common components, which are known and not described in detail.

Claims

1. The utility model provides an automatic die-cutting mechanism in shoemaking batch, includes frame (10), its characterized in that: a main mounting plate (11) is fixed in the middle of the top surface of the top plate of the rack (10), an electric heating plate (12) is fixed on the top surface of the main mounting plate (11), and a guide reinforcing plate (13) is fixed on the top surface of the electric heating plate (12);

the top surface of the roof of frame (10) is fixed with die-cut support frame (14), the top surface middle part of the roof of die-cut support frame (14) is fixed with punching cylinder (15), the push rod of punching cylinder (15) passes the bottom surface of the roof of die-cut support frame (14) and is fixed with lifter plate (16), the bottom surface of lifter plate (16) is fixed with lower connecting plate (17), the bottom surface of lower connecting plate (17) is equipped with a plurality of die-cut mould boards (18), the bottom surface shaping of die-cut mould board (18) has a plurality of cutting tool (181), cutting tool (181) are facing to cladding (100) of carrying on direction reinforcing plate (13).

2. The batch automatic die-cutting mechanism for shoemaking according to claim 1, characterized in that: the bottom surface shaping of lower connecting plate (17) has a plurality of buffering recesses (171), and lower buffer board (19) plug bush is in buffering recess (171), and the bottom surface shaping of lower buffer board (19) has spacing mounting panel (191), and the bottom surface of spacing mounting panel (191) is fixed with die-cut mould board (18), and the top surface of lower buffer board (19) is fixed with a plurality of buffer spring (192), and the top of buffer spring (192) is fixed on the top surface of buffering recess (171).

3. The batch automatic die-cutting mechanism for shoemaking according to claim 2, characterized in that: the outer side edge of the limiting mounting plate (191) faces to the bottom surface of the edge of the lower connecting plate (17).

4. The batch automatic die-cutting mechanism for shoemaking according to claim 1, characterized in that: a plurality of guide rods (161) are fixed on the top surface of the lifting plate (16), and the guide rods (161) are inserted into guide through holes (141) formed in the top plate of the punching support frame (14).

5. The batch automatic die-cutting mechanism for shoemaking according to claim 4, wherein: the self-lubricating sleeve (142) is fixed on the inner side wall of the guide through hole (141), the guide rod (161) is inserted in the self-lubricating sleeve (142), the spring (162) is inserted on the guide rod (161), the top end of the spring (162) is stressed on the bottom surface of the top plate of the punching support frame (14), and the bottom end of the spring (162) is stressed on the top surface of the lifting plate (16).

6. The batch automatic die-cutting mechanism for shoemaking according to claim 1, characterized in that: the left part and the right part of the top surface of the top plate of the rack (10) are provided with driving conveying mechanisms (20);

drive conveying mechanism (20) are including four backup pad (21), the front portion and the rear portion of the left and right sides of the top surface of the roof of frame (10) are fixed in four backup pad (21), the both ends of drive roller (22) are passed through the bearing and are articulated on two backup pad (21) on left two backup pad (21), the both ends of driving roller (23) are passed through the bearing and are articulated on two backup pad (21) on right side, the below of drive roller (22) is equipped with drive tensioning roller (24), the below of driving roller (23) is equipped with transmission tensioning roller (25), drive tensioning roller (24) and transmission tensioning roller (25) all articulate on corresponding backup pad (21) through the bearing, the left part of cladding (100) is in between drive roller (22) and drive tensioning roller (24), the right part of cladding (100) is in between drive roller (23) and transmission tensioning roller (25).

7. The batch automatic die-cutting mechanism for shoemaking according to claim 6, wherein: the outer side walls of the two support plates (21) are respectively fixed with a driving motor (26), the output shaft of each driving motor (26) is a spline shaft, and the spline shaft is inserted in a spline hole formed in one end of the corresponding driving roller (22) or driving roller (23).

8. The batch automatic die-cutting mechanism for shoemaking according to claim 6, wherein: drive tensioning roller (24) or the one end of transmission tensioning roller (25) stretch out corresponding backup pad (21) and be fixed with rolling disc (27), the limit portion of the outer terminal surface of rolling disc (27) is fixed with location arch (271), the top surface of the roof of frame (10) is fixed with vertical board (28) with the department that corresponds of rolling disc (27), be fixed with meter rice sensor (29) on vertical board (28), the response end of meter rice sensor (29) is corresponding with location arch (271), the left side top surface of the roof of frame (10) is fixed with side connecting plate (1), the top surface of side connecting plate (1) is fixed with electron meter rice controller (2), the electric connection line of meter rice sensor (29) is connected with the control mainboard electricity of electron meter rice controller (2).