CN209935637U - Dynamic blade finished product cut-off notch punching integrated cutter bending machine - Google Patents

Abstract

The utility model discloses a dynamic blade finished product cutting notch punching integrated knife bending machine, which solves the technical problems that the prior knife bending machine equipment can not simultaneously cut and notch punching process the blade, thereby reducing the working efficiency of blade processing, and the prior knife bending machine equipment has complex structure and higher maintenance cost and manufacturing cost, and comprises a fixed mainboard, wherein the lower wall surface of the fixed mainboard is provided with a dynamic servo motor, the front end of the fixed mainboard is provided with a turbine reduction gearbox, the fixed mainboard is provided with a punching structure at one side of the turbine reduction gearbox, the utility model discloses a cutting structure and the cutting structure are mutually matched under the driving of the turbine reduction gearbox and the dynamic servo motor, so as to simultaneously cut and notch punching process the blade, thereby improving the processing efficiency of the blade, the utility model has simple structure, the operation is more convenient, the manufacturing cost is low, and the maintenance is easy.

Description

Dynamic blade finished product cut-off notch punching integrated cutter bending machine

Technical Field

The utility model relates to a curved sword machine technical field specifically is a dynamic blade finished product cuts off die-cut integral type curved sword machine of breach.

Background

The blade is a part of a cutter, a weapon or a machine, the edge of the blade is designed to pierce, cut or scrape the surface of a material, a series of processing procedures are required to be carried out on the blade in the blade processing and forming process, wherein the cutting and the notch cutting of the blade are particularly important, the power device for the blade notch cutting and the blade finished product cutting of the existing bending knife machine equipment is completed by two groups of independent power sources, so that the cutting and the notch cutting of the blade cannot be carried out simultaneously, the processing time is wasted, the working efficiency of the blade processing is reduced, the design structure of the existing bending knife machine equipment is complex, the maintenance cost and the manufacturing cost of the equipment are high, and the blade processing cost is increased.

SUMMERY OF THE UTILITY MODEL

The utility model provides a not enough to prior art, the utility model provides a dynamic blade finished product cuts off the die-cut integral type curved knife machine of breach has solved current curved knife machine equipment and can not cut off and the die-cut processing of breach simultaneously to the blade, has reduced the work efficiency of blade processing to and current curved knife machine equipment structure is complicated, cost of maintenance and the higher technical problem of manufacturing cost.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: the utility model provides a die-cut integral type curved sword machine of breach is cut off to dynamic blade finished product, includes fixed mainboard, install power servo motor on the fixed mainboard lower wall, install the turbine reducing gear box on the fixed mainboard front end, on the fixed mainboard, and be located turbine reducing gear box one side and install die-cut structure, on the fixed mainboard, and be located turbine reducing gear box opposite side and install shear structure.

Preferably, the turbine reduction gearbox is limited and fixed through a left worm reduction gearbox fixing plate and a right worm reduction gearbox fixing plate.

Preferably, the punching structure comprises a blade notch punching eccentric wheel, the blade notch punching eccentric wheel is installed on the right driving end of the turbine reduction box, a blade notch punching sliding block is connected to the blade notch punching eccentric wheel, a blade notch punching sliding block connecting piece is fixedly installed on the blade notch punching sliding block, the blade notch punching sliding block connecting piece is connected with a notch die, and a blade is inserted in the notch die.

Preferably, the die-cut sliding block of blade breach carries on spacingly through the die-cut sliding block left side limiting plate of blade breach and the die-cut sliding block right side limiting plate of blade breach, and the die-cut sliding block of blade breach all with the die-cut sliding block left side limiting plate of blade breach and the die-cut sliding block right side limiting plate sliding connection of blade breach.

Preferably, the shearing structure comprises a shearing eccentric wheel, the shearing eccentric wheel is installed at the left driving end of the turbine reduction box, a shearing sliding block is connected to the shearing eccentric wheel, a shearing section positioning wear-resistant block is fixedly installed on the shearing sliding block, a shearing section fixing wear-resistant block is fixedly installed on the shearing section positioning wear-resistant block, a positioning hole is formed in the shearing section fixing wear-resistant block, and a shearing device is installed above the shearing sliding block.

Preferably, the shearing sliding block is limited by the shearing sliding block left limiting plate and the shearing sliding block right limiting plate, and the shearing sliding block is connected with the shearing sliding block left limiting plate and the shearing sliding block right limiting plate in a sliding mode.

Preferably, shearing mechanism includes the cylinder, cylinder fixed mounting is in fixed mainboard upper end frame, the flexible end of cylinder is served and is installed the activity and cut the piece, the flexible end of cylinder is served, and is located activity and cut piece one side and install the shearing location.

Preferably, the shearing positioning and the positioning opening on the shearing sheet fixed wear-resistant block are in plug-in connection in a clearance fit mode.

Advantageous effects

The utility model provides a dynamic blade finished product cuts off die-cut integral type curved knife machine of breach has solved current curved knife machine equipment and can not cut off and the die-cut processing of breach simultaneously to the blade, has reduced the work efficiency of blade processing to and current curved knife machine equipment structure is complicated, cost of maintenance and the higher technical problem of manufacturing cost, the utility model discloses a die-cut structure and shear structure mutually support under worm gear reducing gear box and power servo motor's drive, cut off and the die-cut processing of breach simultaneously to the blade, thereby improved the machining efficiency of blade, the utility model discloses simple structure, it is more convenient to operate, low in manufacturing cost, easy maintenance.

Drawings

Fig. 1 is the utility model relates to a structure schematic diagram of the die-cut integral type curved sword machine of die-cut breach is cut off to dynamic blade finished product.

In the figure: 1-a worm gear reduction box; 2-a power servo motor; 3-punching an eccentric wheel by a blade gap; 4-shearing off the eccentric wheel; 5-punching a sliding block right limiting plate by using a blade notch; 6-punching a left sliding block limiting plate by using a blade notch; 7-shearing off the sliding block right limiting plate; 8-shearing the left limiting plate of the sliding block; 9-worm gear reduction box right fixed plate; 10-worm gear reduction box left fixed plate; 11-shearing the sliding block; 12-punching the sliding block by a blade notch; 13-shearing sheets fix the wear-resistant blocks; 14-shearing and positioning the wear-resistant blocks; 15-movable shearing; 16-shearing and positioning; 17-a notch die; 18-fixing the main board; 19-cutting the sliding block connecting piece by a blade notch; 20-a blade; 21-cylinder.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, the present invention provides a technical solution: a dynamic blade finished product notch cutting and punching integrated cutter bending machine comprises a fixed main board 18, a dynamic servo motor 2 is installed on the lower wall face of the fixed main board 18, a turbine reduction gearbox 1 is installed on the front end of the fixed main board 18, a cutting structure is installed on the fixed main board 18 and located on one side of the turbine reduction gearbox 1, a shearing structure is installed on the fixed main board 18 and located on the other side of the turbine reduction gearbox 1, the turbine reduction gearbox 1 is fixed in a limiting mode through a left worm reduction gearbox fixing plate 10 and a right worm reduction gearbox fixing plate 9, the cutting structure comprises a blade notch cutting eccentric wheel 3, the blade notch cutting eccentric wheel 3 is installed on the right driving end of the turbine reduction gearbox 1, a blade notch cutting sliding block 12 is connected onto the blade notch cutting eccentric wheel 3, and a blade notch cutting sliding block connecting piece 19 is fixedly installed on the blade notch, the cutting structure comprises a cutting eccentric wheel 4, the cutting eccentric wheel 4 is installed on the left driving end of the turbine reduction box 1, the cutting eccentric wheel 4 is connected with a cutting sliding block 11, a cutting positioning wear-resistant block 14 is fixedly installed on the cutting sliding block 11, a cutting fixing wear-resistant block 13 is fixedly installed on the cutting positioning wear-resistant block 14, and a positioning hole is formed in the cutting fixing wear-resistant block 13, cut 11 tops of sliding block and install shearing mechanism, cut sliding block 11 and carry out spacingly through cutting sliding block left limiting plate 8 and cutting sliding block right limiting plate 7, and cut sliding block 11 all with cut sliding block left limiting plate 8 and cut sliding block right limiting plate 7 sliding connection, shearing mechanism includes cylinder 21, cylinder 21 fixed mounting is in fixed mainboard 18 upper end frame, the flexible end of cylinder 21 is served and is installed the activity and cut piece 15, the flexible end of cylinder 21 is served, and is located the activity and cuts 15 one side of piece and install shearing location 16, shearing location 16 and the location mouth on the fixed wear-resisting piece 13 of shearing piece pass through clearance fit's mode cartridge and be connected.

All the electrical components in the present application are connected with the power supply adapted to the electrical components through the wires, and an appropriate controller should be selected according to actual conditions to meet the control requirements, and specific connection and control sequences should be obtained.

Example (b): as can be seen from the attached figure 1 of the specification, a power servo motor 2 drives a worm gear reducer 1, the worm gear reducer 1 can drive a blade notch punching eccentric wheel 3 and a shearing eccentric wheel 4 which are arranged on the left side and the right side to rotate simultaneously, the eccentric wheel can push a blade notch punching sliding block 12 and a shearing sliding block 11 to move back and forth simultaneously, when a notch needs to be punched on a blade 20, the blade notch punching sliding block 12 can move forward to drive a blade notch punching sliding block connecting piece 19 to apply pressure on a notch die 17 to form a needed notch on the blade 20, if shearing is needed, a cylinder 17 pushes a movable shearing piece 15, a shearing positioning 16 moves downwards to be respectively inserted into a shearing piece fixing wear-resisting block 13, the shearing positioning wear-resisting block 14 can move forward through the shearing sliding block 11 to drive a shearing piece fixing wear-resisting block 13 and then push the movable shearing piece 15 to, only one set of power source is needed to complete the die cutting of the blade notch and the cutting of the blade finished product.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation. The use of the phrase "comprising one of the elements does not exclude the presence of other like elements in the process, method, article, or apparatus that comprises the element.

Claims (8)

1. The utility model provides a power ization blade finished product cuts off die-cut integral type curved sword machine of breach, includes fixed mainboard (18), its characterized in that, install power servo motor (2) on the wall under fixed mainboard (18), install turbine reducing gear box (1) on fixed mainboard (18) front end, on fixed mainboard (18), and be located turbine reducing gear box (1) one side and install die-cut structure, on fixed mainboard (18), and be located turbine reducing gear box (1) opposite side and install shear structure.

2. The motorized blade finished product cutting notch punching integrated knife bending machine according to claim 1, wherein the turbine reduction gearbox (1) is limited and fixed through a worm gear reduction gearbox left fixing plate (10) and a worm gear reduction gearbox right fixing plate (9).

3. The motorized blade finished product cutting notch punching integrated curved knife machine according to claim 1, characterized in that the punching structure comprises a blade notch punching eccentric wheel (3), the blade notch punching eccentric wheel (3) is installed on the right driving end of the turbine reduction gearbox (1), a blade notch punching sliding block (12) is connected to the blade notch punching eccentric wheel (3), a blade notch punching sliding block connecting piece (19) is fixedly installed on the blade notch punching sliding block (12), a notch die (17) is connected to the blade notch punching sliding block connecting piece (19), and a blade (20) is inserted into the notch die (17).

4. The dynamic blade finished product cutting notch punching integrated curved knife machine according to claim 3, characterized in that the blade notch punching sliding block (12) is limited by the blade notch punching sliding block left limiting plate (6) and the blade notch punching sliding block right limiting plate (5), and the blade notch punching sliding block (12) is connected with the blade notch punching sliding block left limiting plate (6) and the blade notch punching sliding block right limiting plate (5) in a sliding manner.

5. The dynamic blade finished product cutting notch punching integrated knife bending machine is characterized in that the cutting structure comprises a cutting eccentric wheel (4), the cutting eccentric wheel (4) is installed at the left driving end of a turbine reduction box (1), the cutting eccentric wheel (4) is connected with a cutting sliding block (11), a cutting positioning wear-resistant block (14) is fixedly installed on the cutting sliding block (11), a cutting fixing wear-resistant block (13) is fixedly installed on the cutting positioning wear-resistant block (14), a positioning hole is formed in the cutting fixing wear-resistant block (13), and a cutting device is installed above the cutting sliding block (11).

6. The dynamic blade finished product cutting notch punching integrated knife bending machine according to claim 5, wherein the shear sliding block (11) is limited by a shear sliding block left limiting plate (8) and a shear sliding block right limiting plate (7), and the shear sliding block (11) is connected with the shear sliding block left limiting plate (8) and the shear sliding block right limiting plate (7) in a sliding manner.

7. The integrated bending knife machine for cutting and notch punching of the motorized blade finished product according to claim 5, wherein the shearing device comprises a cylinder (21), the cylinder (21) is fixedly installed on a rack at the upper end of the fixed main plate (18), the movable shear blade (15) is installed on the telescopic end of the cylinder (21), and the shearing positioning piece (16) is installed on one side of the movable shear blade (15) on the telescopic end of the cylinder (21).

8. The integrated angle knife machine for cutting, notching and punching of a motorized blade finished product is characterized in that the cutting positioning (16) is in plug-in connection with a positioning opening in the cutting blade fixing wear-resistant block (13) in a clearance fit mode.

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