CN215881779U - Material cutting device - Google Patents

Abstract

A cutting device is used for cutting workpieces and comprises a fixed seat, a material storage module, a material pressing module, a material pushing module, a material cutting module, a jacking module and a moving module, wherein the fixed seat comprises a bearing plate, the bearing plate is provided with a plurality of openings which are arranged in parallel, the plurality of openings extend along the length direction of the bearing plate, the material storage module is arranged on the bearing plate, the workpieces are stacked and placed in the material storage module, the material pressing module is arranged on the fixed seat, the material pushing module is arranged on the fixed seat, used for pushing the workpiece in the material storage module to the opening position and pressing and holding the workpiece through the material pressing module, the material cutting module is arranged on the fixed seat and is provided with a plurality of cutters, the jacking module is connected with the material cutting module, the moving module is connected with the material cutting module and the jacking module respectively and used for driving the plurality of cutters to move along the extending direction of the opening and cutting the workpiece. Foretell blank device realizes once cutting a plurality of finished product spare of production, realizes lasting blank operation moreover, promotes the efficiency of processing.

Description

Material cutting device

Technical Field

The application relates to the field of product processing, in particular to a material cutting device.

Background

In the production process, the product needs to be cut, a common cutting device can only cut one finished product at a time, continuous cutting cannot be realized, and the overall processing efficiency is low.

SUMMERY OF THE UTILITY MODEL

In view of the above, there is a need for a material cutting device, which can cut a plurality of finished products at a time, and can continuously cut the material, thereby improving the processing efficiency.

The embodiment of the application provides a cutting device, which is used for cutting workpieces and comprises a fixed seat, a storage module, a pressing module, a material pushing module, a material cutting module, a jacking module and a moving module, wherein the fixed seat comprises a bearing plate, the bearing plate is provided with a plurality of openings arranged in parallel, the plurality of openings extend along the length direction of the bearing plate, the storage module is arranged on the bearing plate, the workpieces are stacked and placed in the storage module, the pressing module is arranged on the fixed seat, the material pushing module is arranged on the fixed seat and used for pushing the workpieces in the storage module to the positions of the openings and pressing and holding the workpieces through the pressing module, the cutting module is arranged on the fixed seat, the material cutting module is provided with a plurality of cutters, the jacking module is connected with the material cutting module and used for driving the cutters to move, and the moving module is respectively connected with the material cutting module and the jacking module and is used for driving the plurality of cutters to move along the extending direction of the opening and cut the workpiece.

Foretell blank device deposits a plurality of work pieces that pile up the setting through the storage module, promotes the work piece in the storage module through pushing away the material module, makes the work piece be located the below of pressing the material module to press the position of holding the work piece through pressing the material module. Through the motion of jacking module drive blank module, the cutting face that makes a plurality of cutters of material module is higher than work piece place plane, removes and cuts the work piece through removing module drive blank module to cut into a plurality of finished products with the work piece through a plurality of cutters, cooperation through each module not only can realize once cutting a plurality of finished products of production, and through storage module 20 last feed, realize lasting blank operation, promote the efficiency of processing.

Further, in some embodiments of this application, the material pressing module includes a fixing frame, a material pressing power piece and a pressing plate, the fixing frame is installed on the fixing base, the material pressing power piece is installed on the fixing frame, the pressing plate is connected with the material pressing power piece, the pressing plate is provided with a plurality of grooves, and along a vertical direction, the grooves correspond to the positions of the openings and are used for accommodating the cutters which pass through the openings.

The embodiment is provided with the grooves through the pressing plate, so that the cutter can conveniently cut a workpiece, and the pressing plate of the cutter cutting knife is avoided.

Further, in some embodiments of this application, it includes material pushing power spare and push pedal to push away the material module, it installs in the fixing base to push away the material power spare, the push pedal is connected material pushing power spare, the thickness of push pedal is less than or equal to the thickness of work piece, with through material pushing power spare drive the push pedal promotes to be located the below the work piece.

Further, in some embodiments of this application, the blank module includes first mounting panel, second mounting panel, blank power spare, two mounting brackets and axis of rotation, first mounting panel slides and locates the jacking module, the second mounting panel along vertical direction connect in first mounting panel, blank power spare connect in the second mounting panel, two mounting brackets respectively along vertical direction connect in first mounting panel, the axis of rotation rotate connect in two mounting brackets, a plurality of cutters are located the axis of rotation, the axis of rotation still connect in the blank power spare, the drive of blank power spare the axis of rotation is rotated, in order to drive a plurality of cutters rotate.

Further, in some embodiments of this application, it includes removal power spare and lead screw to remove the module, it connects to remove the power spare the jacking module, the lead screw is connected remove the power spare, the lead screw is equipped with the slide, the blank module is connected the slide, the slide is connected first mounting panel, it drives to remove the power spare the lead screw rotates, in order to drive first mounting panel slides, and then drives a plurality of cutters remove.

Further, in some embodiments of this application, the fixing base includes first fixed plate, second fixed plate and bracing piece, push away material module and press the material module to install in first fixed plate, the jacking module install in the second fixed plate, the bracing piece is connected respectively first fixed plate and second fixed plate.

Further, in some embodiments of this application, the jacking module includes fly leaf and jacking power spare, fly leaf sliding connection the bracing piece, jacking power spare, install in the second fixed plate is connected the fly leaf, blank module and removal module are located the fly leaf, through jacking power spare, drive blank module and removal module go up and down.

Further, in some embodiments of this application, the loading board is equipped with the locating lever, blank device still includes the location module, the location module includes location power spare and locating piece, location power spare is concave to be located first fixed plate, the locating piece connection location power spare, location power spare drive the locating piece is along the perpendicular to the length extending direction of loading board removes, will the work piece location is in between locating lever and the locating piece.

Further, in some embodiments of the present application, the material cutting device further includes a discharging mechanism, the discharging mechanism includes a supporting frame, a first discharging power component, a second discharging power component, a discharging plate, and a discharging channel, the supporting frame is mounted on the fixing base, the first discharging power component is fixed on the supporting frame, the second discharging power component is fixed on the first discharging power component, the discharging plate is connected to the second discharging power component, the discharging channel is connected to the bearing plate, the second discharging power component drives the discharging plate to move to one side of the workpiece departing from the cutting tool along the length extending direction of the bearing plate, the first discharging power component drives the second discharging power component to descend, so that the height of the lower edge of the discharging plate is lower than the height of the upper edge of the workpiece, and the second discharging power component drives the discharging plate to reset, and pushing the workpiece to the discharging channel through the discharging plate.

Further, in some embodiments of the present application, the blanking module further includes an auxiliary mechanism mounted on one side of the cutter for cooling the cutter.

Drawings

Fig. 1 is a schematic structural diagram of a blanking device in an embodiment.

Fig. 2 is a schematic structural diagram of a fixing base in an embodiment.

Fig. 3 is a schematic structural diagram of the material storing module and the material pushing module in one embodiment.

Fig. 4 is a schematic structural diagram of the swaging module in an embodiment.

Fig. 5 is a schematic structural diagram of a discharging mechanism in an embodiment.

Fig. 6 is a schematic structural diagram of a jacking module according to an embodiment.

Fig. 7 is a schematic structural diagram of a mobile module according to an embodiment.

Description of the main elements

Cutting device 100

Fixing seat 10

First fixing plate 11

Mounting port 11a

Second fixing plate 12

Support bar 13

Carrier plate 14

Positioning rod 141

Opening 14a

Assembly jig 15

Storage module 20

Storage block 21

Accommodating groove 21a

Connecting block 22

Pushing module 30

Pushing power piece 31

Push plate 32

Notch 32a

Pressing module 40

Fixing frame 41

Material pressing power part 42

Pressure plate 43

Groove 43a

Cutting die set 50

Tool 50a

First mounting plate 51

Second mounting plate 52

Blank power part 53

Rotating shaft 54

Mounting bracket 55

Auxiliary mechanism 56

Auxiliary device 561

Auxiliary channel 562

Jacking module 60

Movable plate 61

Slide rail 611

Slider 612

Jacking power part 62

Buffer rod 63

Mobile module 70

Movable power part 71

Screw 72

Slide carriage 73

Limiting rod 74

Stopper 75

Positioning module 80

Positioning power part 81

Positioning block 82

Discharging mechanism 90

Supporting frame 91

First discharge power element 92

Second discharge power member 93

Discharge plate 94

Discharge channel 95

First direction X

Second direction Y

Third direction Z

Workpiece 200

Finished product box 300

External water tank 400

The following specific examples will further illustrate the application in conjunction with the above figures.

Detailed Description

The technical solutions in the embodiments of the present application will be described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments.

It will be understood that when an element is referred to as being "mounted on" another element, it can be directly on the other element or intervening elements may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used herein, the term "or/and" includes any and all combinations of one or more of the associated listed items.

The embodiment of the application provides a cutting device, which is used for cutting workpieces and comprises a fixed seat, a material storage module, a material pressing module, a material pushing module, a material cutting module, a jacking module and a moving module, wherein the fixed seat comprises a bearing plate, the bearing plate is provided with a plurality of openings which are arranged in parallel, the plurality of openings extend along the length direction of the bearing plate, the material storage module is arranged on the bearing plate, the workpieces are stacked and placed in the material storage module, the material pressing module is arranged on the fixed seat, the material pushing module is arranged on the fixed seat and used for pushing the workpieces in the material storage module to the positions of the openings and pressing the workpieces through the material pressing module, the material cutting module is arranged on the fixed seat and is provided with a plurality of cutters, the jacking module is connected with the material cutting module and used for driving the plurality of cutters to move, so that the cutting surfaces of the cutters are higher than the plane of the workpieces, and the moving module is respectively connected with the material cutting module and the jacking module, for driving a plurality of cutters to move along the extending direction of the opening and cut the workpiece.

Foretell blank device deposits a plurality of work pieces that pile up the setting through the storage module, promotes the work piece in the storage module through pushing away the material module, makes the work piece be located the below of pressing the material module to press the position of holding the work piece through pressing the material module. Through the motion of jacking module drive blank module, the cutting face that makes a plurality of cutters of material module is higher than work piece place plane, removes and cuts the work piece through removing module drive blank module to cut into a plurality of finished products with the work piece through a plurality of cutters, cooperation through each module not only can realize once cutting a plurality of finished products of production, and through storage module 20 last feed, realize lasting blank operation, promote the efficiency of processing.

Some embodiments of the present application will be described in detail below with reference to the accompanying drawings.

Referring to fig. 1 and 2, the blanking device 100 shown in fig. 1 is used for cutting a workpiece 200 to cut the workpiece 200 into a plurality of finished parts. The blanking device 100 comprises a fixed seat 10, a storage module 20, a material pushing module 30, a material pressing module 40, a blanking module 50, a jacking module 60 and a moving module 70. Storage module 20, push away material module 30 and press material module 40 to install on fixing base 10, and storage module 20 is used for placing the work piece 200 that piles up, pushes away the work piece 200 that material module 30 promoted in the storage module 20, makes work piece 200 be located the below of pressing material module 40 to press the position of holding work piece 200 through pressing material module 40. The jacking module 60 is connected with the blanking module 50, the blanking module 50 is provided with a plurality of cutters 50a, the jacking module 60 drives the blanking module 50 to move, so that the cutting surfaces of the cutters 50a are higher than the plane of the workpiece 200, and the moving module 70 is respectively connected with the blanking module 50 and the jacking module 60 and used for driving the blanking module 50 to move and cut the workpiece 200, so that the workpiece 200 is cut into a plurality of finished products through the cutters 50 a.

Referring to fig. 2 and 3, in an embodiment, the fixing base 10 includes a first fixing plate 11, a second fixing plate 12, a supporting rod 13, a bearing plate 14 and a mounting bracket 15. The first fixing plate 11 and the second fixing plate 12 are respectively installed on the mounting bracket 15, wherein the first fixing plate 11 is located at the top of the mounting bracket 15, and the second fixing plate 12 is installed in the mounting bracket 15. The support rods 13 are connected to the first fixing plate 11 and the second fixing plate 12, respectively. In one embodiment, a support bar 13 is disposed at each corner of the first fixing plate 11 and the second fixing plate 12, so as to improve the stability of the fixing base 10.

The first fixing plate 11 has an installation opening 11a, and the bearing plate 14 is disposed on one side of the first fixing plate 11 opposite to the second fixing plate 12 and located at the installation opening 11 a. Taking the length extending direction of the bearing plate 14 as the first direction X, the bearing plate 14 is provided with a plurality of openings 14a arranged in parallel along the first direction X, and the openings 14a are used for allowing the cutter 50a to pass through so as to cut the workpiece. In one embodiment, the number of openings 14a is at least greater than the number of cutters 50a, and the position of the openings 14a corresponds to the position of the cutters 50a, such that each cutter 50a passes through the opening 14 a. In one embodiment, one end of the supporting plate 14 away from the pushing module 30 is inclined downward, so as to facilitate receiving the cut product.

The stocker module 20 includes a stocker block 21 and a connection block 22, and the stocker block 21 has a receiving groove 21a for placing the work 200. The connecting block 22 is respectively connected with the material storage block 21 and the first fixing plate 11, and is used for fixing the material storage block 21 on the first fixing plate 11, one end of the material storage block 21 extends into the mounting opening 11a and is arranged at an interval with the bearing plate 14, the interval between the material storage block 21 and the bearing plate 14 is at least the thickness of one workpiece 200, and the workpiece 200 is pushed to the position of the opening 14a of the bearing plate 14 through the interval material pushing module 30. In one embodiment, the magazine 21 and the connection block 22 are provided in two, and the two connection blocks 22 are fixed to the first fixing plate 11 on both sides of the mounting opening 11a in a second direction Y perpendicular to the first direction X. The stock block 21 is connected to the connection block 22 in a vertical direction, and a plurality of works 200 are stacked in the accommodation groove 21 a. The workpiece 200 at the bottommost portion of the stacked workpieces is located in the space between the bin 21 and the carrier plate 14.

In one embodiment, the pushing module 30 includes a pushing power member 31 and a pushing plate 32. The pushing power piece 31 is mounted on the first fixing plate 11, and the push plate 32 is connected with the pushing power piece 31. The thickness of the push plate 32 is less than the separation distance between the hopper block 21 and the carrier plate 14 and less than or equal to the thickness of the workpiece 200, facilitating pushing of the lowermost workpiece 200. The pushing power component 31 drives the pushing plate 32 to move along the first direction X, so that the pushing plate extends into the space between the material storage block 21 and the bearing plate 14, and pushes the workpiece 200 located at the bottommost of the stacked workpieces to the opening 14a and below the material pressing module 40. In an embodiment, after the pushing power component 31 drives the pushing plate 32 to push the workpiece 200, the pushing power component 31 keeps the position of the pushing plate 32 still, and the edge of the pushing plate 32 abuts against the side edge of the workpiece 200, so as to limit the position of the workpiece 200 along the first direction X. One end of the push plate 32, which is far away from the pushing power component 31, is provided with a notch 32a, the notch 32a corresponds to the position of the opening 14a, and the extending directions of the notch 32a and the opening 14a are located on the same straight line along the first direction X, so that when the cutter 50a cuts the workpiece 200, the cutter 50a can pass through the notch, and the cutter 50a is prevented from cutting the push plate 32.

In an embodiment, the blanking device 100 further includes a positioning module 80, and the positioning module 80 is used for fixing the position of the workpiece 200 along the second direction Y. The supporting plate 14 has a positioning rod 141 disposed along the first direction X, and the positioning module 80 is fixed to the first fixing plate 11 and disposed opposite to the positioning rod 141 along the second direction Y.

The positioning module 80 includes a positioning power member 81 and a positioning block 82, the positioning power member 81 is concavely disposed on the surface of the first fixing plate 11, and the positioning block 82 is connected to the positioning power member 81. The positioning power member 81 drives the positioning block 82 to move toward the positioning rod 141, and abuts the side edge of the workpiece 200 between the positioning rod 141 and the positioning block 82, thereby positioning the position of the workpiece 200 in the second direction Y.

Referring to fig. 4, in an embodiment, the pressing module 40 includes a fixing frame 41, a pressing power member 42, and a pressing plate 43. The fixing frame 41 is mounted on the first fixing plate 11 along the second direction Y, the pressing power member 42 is mounted on the fixing frame 41 along a third direction Z perpendicular to the first direction X and the second direction Y, and the pressing plate 43 is connected to the pressing power member 42. The pressing power member 42 drives the pressing plate 43 to move along the third direction Z, so that the pressing plate 43 is pressed on the workpiece 200, and the position of the workpiece 200 is positioned along the third direction Z. In one embodiment, the pressing plate 43 is provided with a plurality of grooves 43a on a side facing the carrier plate 14, the projection of the plurality of grooves 43a on the carrier plate 14 is the same as the opening 14a along the third direction Z, and the positions of the grooves 43a and the opening 14a correspond to each other for receiving the cutter 50a penetrating through the opening 14a, so as to facilitate the cutter 50a to cut the workpiece 200. In an embodiment, the third direction Z is a vertical direction.

Referring to fig. 1 and 5, in an embodiment, the blanking device 100 further includes a discharging mechanism 90, and the discharging mechanism 90 is used for pushing the cut finished products into a finished product box 300. The discharging mechanism 90 includes a supporting frame 91, a first discharging power member 92, a second discharging power member 93, a discharging plate 94 and a discharging channel 95. The supporting frame 91 is disposed on the first fixing plate 11 along the second direction Y, the first discharging power component 92 is fixed on the supporting frame 91, the second discharging power component 93 is fixed on the first discharging power component 92, the discharging plate 94 is connected to the second discharging power component 93, and the discharging channel 95 is connected to the bearing plate 14. When receiving the material, second ejection of compact power spare 93 drive ejection of compact board 94 moves along the opposite direction with first direction X, make ejection of compact board 94 be located the one side that work piece 200 deviates from cutter 50a, then first ejection of compact power spare 92 drive second ejection of compact power spare 93 and ejection of compact board 94 move along third direction Z, make the lower edge place height that is less than the top surface place height of work piece 200 of ejection of compact board 94, then drive ejection of compact board 94 through second ejection of compact power spare 93 and remove along first direction X, promote finished product to discharging channel 95 through ejection of compact board 94, and through discharging channel 95 landing to in finished product case 300.

Referring to fig. 6 and 7, in one embodiment, the blanking module 50 includes a first mounting plate 51, a second mounting plate 52, a blanking power member 53, a rotating shaft 54 and two mounting brackets 55. The first mounting plate 51 is connected with the jacking module 60 in a sliding mode along the first direction X, the second mounting plate 52 is connected with the first mounting plate 51 along the third direction Z, and the material cutting power piece 53 is mounted on the second mounting plate 52. The two mounting brackets 55 are oppositely arranged on the first mounting plate 51 along the second direction Y, the mounting brackets 55 are provided with rotating bearings, and two ends of the rotating shaft 54 are respectively connected to the rotating bearings of the two mounting brackets 55. The plurality of cutters 50a are provided on the rotating shaft 54 at predetermined intervals. The distance between adjacent cutters 50a along the second direction Y is the length of the single finished part along the second direction Y. The material cutting power member 53 drives the rotating shaft 54 to rotate, thereby cutting the workpiece 200.

Referring to fig. 1 and 6, in an embodiment, the cutting die set 50 further includes an auxiliary mechanism 56, the auxiliary mechanism 56 includes an auxiliary device 561 and an auxiliary channel 562, the auxiliary device 561 is mounted on one side of the cutter 50a and is connected to external cutting fluid for spraying the cutting fluid onto the cutter 50a, cooling and lubricating the cutter 50a, and the sprayed cutting fluid flows into the external water tank 400 through the auxiliary channel 562 for recycling.

Referring to fig. 6 and 7, in an embodiment, the jacking module 60 includes a movable plate 61 and a jacking power member 62. The movable plate 61 is slidably disposed on the support rod 13, and the jacking power component 62 is mounted on one side of the second fixed plate 12 away from the first fixed plate 11 and passes through the second fixed plate 12 to be connected to the movable plate 61. The lifting power member 62 drives the movable plate 61 to ascend on the support rod 13 along the direction opposite to the third direction Z, so that the plurality of tools 50a of the cutting module 50 disposed on the movable plate 61 move and extend into the opening 14a, and the cutting surfaces of the plurality of tools 50a are higher than the plane of the workpiece 200, thereby facilitating the plurality of tools 50a to cut the workpiece 200.

In an embodiment, the movable plate 61 is provided with two sliding rails 611 arranged along the first direction X, two sliding blocks 612 are disposed on each sliding rail 611, and the first mounting plate 51 is connected to the sliding blocks 612, and the moving module 70 drives the first mounting plate 51 to reciprocate along the first direction X.

In an embodiment, the jacking module 60 further includes a buffer rod 63, one end of the buffer rod 63 is elastically connected to the movable plate 61, and the other end of the buffer rod 63 extends along a direction opposite to the third direction Z, so as to buffer the movement of the movable plate 61 and prevent hard contact between the module and the module.

In one embodiment, the moving module 70 includes a moving power member 71, a lead screw 72, and a slider 73. The movable power member 71 is mounted on the movable plate 61 and connected to the screw rod 72, the screw rod 72 is disposed on the movable plate 61 along the first direction X, and the slide carriage 73 is connected to the screw rod 72 and the first mounting plate 51, respectively. The screw 72 is driven to rotate by the moving power member 71, so that the slide carriage 73 reciprocates along the first direction X, and the tool 50a is driven to move towards or away from the workpiece 200.

In an embodiment, the moving module 70 further includes a limiting rod 74 and a plurality of limiting stoppers 75, the limiting rod 74 is connected to the first mounting plate 51, and the plurality of limiting stoppers 75 are mounted on the moving plate 61 along the first direction X. The stopper 75 regulates the moving distance of the first mounting plate 51, and thus the moving distance of the cutter 50 a.

When the material cutting device 100 is used, firstly, a plurality of stacked workpieces 200 are placed in the material storage module 20, then the pushing power piece 31 drives the pushing plate 32 to move along the first direction X, so that the pushing plate extends into the space between the material storage block 21 and the bearing plate 14, and pushes the workpiece 200 positioned at the bottommost part of the stacked workpieces to the opening 14a and below the material pressing module 40, the pushing power piece 31 keeps the position of the pushing plate 32 fixed, the edge of the pushing plate 32 abuts against the side edge of the workpiece 200, the position of the workpiece 200 is limited along the first direction X, then the positioning power piece 81 drives the positioning block 82 to move towards the positioning rod 141, the side edge of the workpiece 200 abuts against between the positioning rod 141 and the positioning block 82, the position of the workpiece 200 is positioned along the second direction Y, and the material pressing power piece 42 drives the pressing plate 43 to move along the third direction Z, so that the pressing plate 43 is pressed on the workpiece 200, positioning the workpiece 200 along the third direction Z, driving the screw 72 to rotate by the moving power member 71, further moving the slide carriage 73 along the first direction X, driving the tool 50a to move away from the workpiece 200, driving the movable plate 61 to ascend on the support rod 13 along the direction opposite to the third direction Z by the lifting power member 62, moving the plurality of tools 50a of the blanking module 50 disposed on the movable plate 61 and extending into the opening 14a, making the cutting surfaces of the plurality of tools 50a higher than the plane of the workpiece 200, driving the rotating shaft 54 to rotate by the blanking power member 53 and driving the plurality of tools 50a to move toward the workpiece 200 by the moving module 70, cutting the workpiece 200 into a plurality of finished products, cooling and lubricating the tools 50a by the auxiliary mechanism 56, after the cutting is completed, returning the lifting module 60 to enable the plurality of tools 50a to exit from the opening 14a, pushing the plurality of finished products to the discharge channel 95 by the discharge mechanism 90, and slide down into the product box 300 through the discharge passage 95 to complete the cutting of one workpiece 200, so as to circulate and realize the continuous cutting of the workpiece 200 through the cooperation of the modules.

The above-mentioned blank device 100 deposits a plurality of work pieces that pile up the setting through the storage module 20, promotes the work piece 200 in the storage module 20 through pushing away the material module 30, makes work piece 200 be located the below of pressing the material module 40 to press the position of holding work piece 200 through pressing the material module 40. Drive blank module 50 through jacking module 60 and move, make a plurality of cutters 50a of blank module 50's cutting face be higher than work piece 200 place plane, remove and cut work piece 200 through removing module 70 drive blank module 50, in order to cut into a plurality of finished products with work piece 200 through a plurality of cutters 50a, cooperation through each module not only can realize once cutting a plurality of finished products of production, and last the feed through storage module 20, realize lasting blank operation, promote the efficiency of processing.

It should be understood by those skilled in the art that the above embodiments are only for illustrating the present application and are not to be taken as limiting the present application, and that suitable changes and modifications to the above embodiments are within the scope of the present disclosure as long as they are within the spirit and scope of the present application.

Claims (10)

1. A blanking device for cutting a workpiece, comprising:

the fixing seat comprises a bearing plate, wherein the bearing plate is provided with a plurality of openings which are arranged in parallel, and the plurality of openings extend along the length direction of the bearing plate;

the material storage module is arranged on the bearing plate, and the workpieces are stacked in the material storage module;

its characterized in that, blank device still includes:

the pressing module is arranged on the fixed seat;

the material pushing module is arranged on the fixed seat and used for pushing the workpiece in the material storage module to the position of the opening and pressing the workpiece through the material pressing module;

the cutting module is arranged on the fixed seat and is provided with a plurality of cutters;

the jacking module is connected with the material cutting module and used for driving the plurality of cutters to move so that the cutting surfaces of the plurality of cutters are higher than the plane of the workpiece;

and the moving module is respectively connected with the material cutting module and the jacking module and used for driving the plurality of cutters to move along the extending direction of the opening and cut the workpiece.

2. The blanking device of claim 1, wherein the swaging die set comprises:

the fixing frame is arranged on the fixing seat;

the pressing power part is arranged on the fixing frame; and

the pressing plate is connected with the material pressing power part and provided with a plurality of grooves, and the grooves correspond to the positions of the openings in the vertical direction and are used for accommodating the cutters penetrating through the openings.

3. The blanking device of claim 1 wherein said material pushing module comprises:

the pushing power piece is arranged on the fixed seat;

the push plate is connected with the material pushing power piece, the thickness of the push plate is smaller than or equal to that of the workpiece, and the push plate is driven by the material pushing power piece to push the workpiece which is positioned at the lowest part.

4. The blanking device of claim 1 wherein said blanking module comprises:

the first mounting plate is arranged on the jacking module in a sliding manner;

the second mounting plate is connected to the first mounting plate along the vertical direction;

the material cutting power part is connected to the second mounting plate;

the two mounting frames are respectively connected to the first mounting plate along the vertical direction; and

the rotating shafts are rotatably connected to the two mounting racks, the plurality of cutters are arranged on the rotating shafts, and the rotating shafts are further connected to the material cutting power piece;

the material cutting power part drives the rotating shaft to rotate so as to drive the plurality of cutters to rotate.

5. The blanking device of claim 4 wherein said movement module comprises:

the movable power piece is connected with the jacking module;

the lead screw is connected with the movable power part and provided with a sliding seat, the blanking module is connected with the sliding seat, and the sliding seat is connected with the first mounting plate;

the movable power part drives the screw rod to rotate so as to drive the first mounting plate to slide and further drive the plurality of cutters to move.

6. The blanking device of claim 1 wherein said holder comprises:

the material pushing module and the material pressing module are mounted on the first fixing plate;

the jacking module is mounted on the second fixing plate; and

and the supporting rod is respectively connected with the first fixing plate and the second fixing plate.

7. The blanking device of claim 6 wherein the jacking module comprises:

the movable plate is connected with the supporting rod in a sliding manner;

the jacking power part is arranged on the second fixed plate and connected with the movable plate; and

the cutting module and the moving module are arranged on the movable plate and are driven to lift through the jacking power piece.

8. The blanking device of claim 6 wherein the carrier plate is provided with a positioning rod, the blanking device further comprising a positioning module, the positioning module comprising:

the positioning power piece is concavely arranged on the first fixing plate; and

the positioning block is connected with the positioning power piece;

the positioning power piece drives the positioning block to move along the direction perpendicular to the length extension direction of the bearing plate, and the workpiece is positioned between the positioning rod and the positioning block.

9. The blanking device of claim 1 further comprising an outfeed mechanism, the outfeed mechanism comprising:

the supporting frame is arranged on the fixed seat;

the first discharging power piece is fixed on the support frame;

the second discharging power part is fixed on the first discharging power part;

the discharging plate is connected to the second discharging power part; and

the discharging channel is connected with the bearing plate;

the second discharging power part drives the discharging plate to move to one side, away from the cutter, of the workpiece along the length extending direction of the bearing plate, the first discharging power part drives the second discharging power part to descend, the height of the lower edge of the discharging plate is lower than that of the upper edge of the workpiece, the second discharging power part drives the discharging plate to reset, and the workpiece is pushed to the discharging channel through the discharging plate.

10. The blanking device of claim 1 wherein said blanking module further comprises:

and the auxiliary mechanism is arranged on one side of the cutter and is used for cooling the cutter.

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