CN209598684U - A kind of die cut combined machine - Google Patents

Abstract

The utility model discloses a kind of die cut combined machine, including lathe, lathe is equipped with stamping station and cutting work station；Punching mechanism, punching mechanism are set on lathe and are located at stamping station；Punching mechanism is for being punched out workpiece；Cutting mechanism, cutting mechanism are set on lathe and are located at cutting work station；Cutting mechanism is for cutting workpiece；Workpiece transfer mechanism, workpiece transfer mechanism include workpiece clamp pickup, the first driving mechanism and the second driving mechanism, and the first driving mechanism is for driving workpiece clamp pickup to move along the length direction of lathe；Second driving mechanism is for driving workpiece clamp pickup to move along the width direction of lathe；The stamping station and cutting work station are located on the motion profile of workpiece clamp pickup.A kind of die cut combined machine of the utility model, can be after stamping station plate be punched out, then plate is delivered to cutting work station and carries out cutting operation.

Description

A kind of die cut combined machine

Technical field

The utility model relates to mechanical equipment technical field more particularly to a kind of die cut combined machines.

Background technique

Currently, needing to cut plate during sheet fabrication, after the completion of cutting, to the plate after cutting It is punched out, trimming processing is being carried out after being punched out, to complete the processing of plate.But existing sheet fabrication is set Standby, each process is completed using individual mechanism, each process will individual loading and unloading, operating process is complicated, Processing efficiency is lower.

Utility model content

For overcome the deficiencies in the prior art, the purpose of this utility model is to provide a kind of die cut combined machine, It can be after stamping station plate be punched out, then plate is delivered to cutting work station and carries out cutting operation.

The purpose of this utility model is implemented with the following technical solutions:

A kind of die cut combined machine, including,

Lathe, lathe are equipped with stamping station and cutting work station；

Punching mechanism, punching mechanism are set on lathe and are located at stamping station；Punching mechanism is for rushing workpiece Hole；

Cutting mechanism, cutting mechanism are set on lathe and are located at cutting work station；Cutting mechanism is for cutting workpiece It cuts；

Workpiece transfer mechanism, workpiece transfer mechanism include workpiece clamp pickup, the first driving mechanism and the second driving mechanism, First driving mechanism is for driving workpiece clamp pickup to move along the length direction of lathe；Second driving mechanism is for driving workpiece clamp Pickup is moved along the width direction of lathe；The stamping station and cutting work station are located on the motion profile of workpiece clamp pickup.

Preferably, the first driving mechanism include the first mounting rack, first motor, first gear and the first rack gear, first Mounting rack is mounted on the extension of the length direction on lathe and along lathe；First rack gear is fixed on the first mounting rack and along lathe Length direction extends；First gear is installed on the first mounting rack and engages with the first rack gear；The shaft of first motor and first Gear synchronous connection；The workpiece clamp pickup is synchronous with first gear to be coupled.

Preferably, the second driving mechanism includes the second mounting rack, the second motor, second gear and the second rack gear, lathe It is equipped with the guide rail extended along the width direction of lathe；Second mounting rack extends along the length direction of lathe and matches with guide rail sliding It closes；Second rack gear is fixed in the extension of the width direction on lathe and along lathe；Second gear is engaged with the second rack gear；Second motor Shaft it is synchronous with second gear connection；First mounting rack is installed on the second mounting rack；Second mounting rack and the second tooth It takes turns affixed.

Preferably, workpiece clamp pickup includes clamping frame and at least two cleat assemblies；First driving mechanism is for driving Clamping frame is moved along the length direction of lathe, and the second driving mechanism is for driving clamping frame to move along the width direction of lathe；Institute At least two gripper assemblies are stated to be installed on clamping frame and be spaced apart along the length direction of clamping frame；Cleat assembly includes fixing Clamping plate and ambulatory splint；The strap is fixed on clamping frame；The ambulatory splint is articulated in fixing clamp by shaft On plate.

Preferably, the front end of the strap and ambulatory splint is equipped with dentalation.

Preferably, punching mechanism include formed punch, third driving mechanism, upper mold and with the matched lower die of upper die structure, on Mould is fixed in formed punch bottom end；The formed punch can be moved along the short transverse of lathe so that upper mold and lower die molding or die sinking；The Three driving mechanisms are for driving formed punch to move along the short transverse of lathe；Third driving mechanism includes at least two press blocks, institute It states at least two press blocks to be fixed in the top of formed punch and the formed punch is driven to move along the short transverse of lathe, described at least two A press block is intervally arranged along the width direction of lathe.

Preferably, cutting mechanism includes laser cutting head, the 4th driving mechanism, the 5th driving mechanism and the 6th driving machine Structure, the 4th driving mechanism is for driving laser cutting head to move along the length direction of lathe；5th driving mechanism is sharp for driving Light cutting head is moved along the width direction of lathe；6th driving mechanism is used to that laser cutting head to be driven to transport along the short transverse of lathe It is dynamic.

Preferably, the 4th driving mechanism includes the first sliding rail, the first sliding block and the first erecting bed, and the first sliding rail is along lathe Length direction extend；The bottom end of first erecting bed is equipped with first sliding block, and the first sliding block is slidably matched with the first sliding rail；The Five driving mechanisms include the second sliding rail, the second sliding block and the second erecting bed, and second sliding rail is installed on the first erecting bed And extend along the width direction of lathe；The bottom end of second erecting bed is equipped with second sliding block, and the second sliding block and the second sliding rail are sliding Dynamic cooperation；6th driving mechanism includes lead screw motor, feed screw nut, third sliding rail and third erecting bed, the third sliding rail The short transverse on the second erecting bed and along lathe is installed on to extend；Third erecting bed is slidably matched with third sliding rail；Screw rod electricity The Installing machine tool of machine is on the second erecting bed；The screw rod of lead screw motor extends along the short transverse of lathe；Feed screw nut and screw rod The wire rod thread of motor is connected and is fixedly connected with third erecting bed；The laser cutting head is installed on third erecting bed.

Preferably, the cutting mechanism further includes synchronous belt conveying mechanism, the conveying end face of the synchronous belt conveying mechanism Be formed as cutting work station and the workpiece for receiving the workpiece clamp pickup clamping.

Compared with prior art, the utility model has the beneficial effects that: the workpiece clamp pickup of its workpiece transfer mechanism can be with Clamping workpiece is delivered to stamping station, and punching mechanism can be punched out operation to workpiece；After the completion of the punching operation of workpiece, work Part pickup folder can clamp workpiece and be delivered to cutting work station progress cutting operation, in this way, both achievable punching is made on the lathe Industry, and cutting operation can be carried out, a loading and unloading can complete the punching and cutting of plate, improve sheet fabrication efficiency.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the partial structural diagram of the workpiece transfer mechanism of the utility model；

Fig. 3 is the partial structural diagram of the workpiece transfer mechanism of the utility model；

Fig. 4 is the structural schematic diagram of the punching mechanism of the utility model；

Fig. 5 is the structural schematic diagram of the cutting mechanism of the utility model.

In figure: 10, lathe；11, guide rail；20, punching mechanism；21, formed punch；22, block is pressed；23, third driving mechanism； 30, cutting mechanism；31, synchronous belt conveying mechanism；32, the first sliding rail；33, the first erecting bed；34, the second sliding rail；35, the second peace Fill platform；36, lead screw motor；37, third erecting bed；38, laser cutting head；40, workpiece transfer mechanism；41, the first mounting rack； 42, the first rack gear；43, first gear；44, first motor；45, pickup folder；46, ambulatory splint；47, strap；48, second Mounting rack；49, the second rack gear；491, second gear；492, the second motor.

Specific embodiment

In the following, being described further in conjunction with attached drawing and specific embodiment to the utility model:

A kind of die cut combined machine as shown in Figs. 1-5, including lathe 10, punching mechanism 20, cutting mechanism 30 with And workpiece transfer mechanism 40, stamping station and cutting work station are equipped on lathe 10.Punching mechanism 20 is specifically set to lathe It goes up and is located at stamping station；Punching mechanism 20 is for being punched out workpiece.Cutting mechanism 30 is set on lathe and is located at At cutting work station, the cutting mechanism 30 is for cutting workpiece.

In addition, workpiece transfer mechanism 40 include workpiece clamp pickup 45, the first driving mechanism and the second driving mechanism, first Driving mechanism is for driving workpiece clamp pickup 45 to move along the length direction of lathe 10；Second driving mechanism is for driving workpiece clamp Pickup 45 is moved along the width direction of lathe 10, and above-mentioned stamping station and cutting work station are located at the movement of workpiece clamp pickup 45 On track, i.e., workpiece clamp pickup 45 can be moved under the drive of the first driving mechanism and the second driving mechanism stamping station with And cutting work station.

When on the basis of the said structure, using the die cut combined machine of the utility model, by taking workpiece is plate as an example, Plate can be clamped by workpiece clamp pickup 45, then drive workpiece clamp pickup 45 along the length of lathe 10 by the first driving mechanism Direction movement, i.e. workpiece clamp pickup 45 drive plate, to the corresponding position of stamping station, to pass through simultaneously along 10 side-to-side movement of lathe Second driving mechanism drives workpiece clamp pickup 45 to move along the width direction of lathe 10, i.e. workpiece clamp pickup 45 drives plate along machine Bed 10 is moved forward and backward to stamping station, so that workpiece clamp pickup 45, which can clamp workpiece, is delivered to stamping station, punching mechanism 20 Operation can be punched out to workpiece.

After the completion of the punching operation of workpiece, drive workpiece clamp pickup 45 along the length of lathe 10 by the first driving mechanism Direction movement, i.e. workpiece clamp pickup 45 drive plate, to the corresponding position of cutting work station, to pass through simultaneously along 10 side-to-side movement of lathe Second driving mechanism drives workpiece clamp pickup 45 to move along the width direction of lathe 10, i.e. workpiece clamp pickup 45 drives plate along machine Bed 10 is moved forward and backward to cutting work station, and workpiece clamp pickup 45 can clamp workpiece and be delivered to cutting work station progress cutting operation, such as This, the not only achievable punching operation on the lathe, but also cutting operation can be carried out, a loading and unloading can complete plate punching and Cutting improves sheet fabrication efficiency.

Preferably, first driving mechanism of the present embodiment include the first mounting rack 41, first motor 44, first gear 43 with And first rack gear 42, the first mounting rack 41 is mounted on lathe 10, the first mounting rack 41 extends along the length direction of lathe 10. In addition, the first rack gear 42 is fixed on the first mounting rack 41 and extends along the length direction of lathe 10, above-mentioned first gear 43 It is installed on the first mounting rack 41 and is engaged with the first rack gear 42；The connection synchronous with first gear 43 of the shaft of first motor 44, In this structure basis, above-mentioned workpiece clamp pickup 45 connection synchronous with first gear 43.In this way, driving 45 edge of workpiece clamp pickup When the length motion of lathe 10, first motor 44 can be started, the shaft rotation of first motor 44 can drive 43 turns of first gear Dynamic, the rotation of first gear 43 can be moved along the first rack gear 42 being engaged with, and then drive the work coupled with first gear 43 Part pickup folder 45 is moved along the length direction of lathe 10.

Further, the second driving mechanism includes the second mounting rack 48, the second motor 492, second gear 491 and the Two rack gears 49, lathe 10 are equipped with guide rail 11, and guide rail 11 extends along the width direction of lathe 10.Above-mentioned 48 edge of the second mounting rack The length direction of lathe 10 extends and is slidably matched with guide rail 11；Second rack gear 49 is fixed on lathe 10 and along the width of lathe 10 Direction is spent to extend；Second gear 491 is engaged with the second rack gear 49；The shaft of second motor 492 is synchronous with second gear 491 It connects；First mounting rack 41 is installed on the second mounting rack 48, and the second mounting rack 48 and second gear 491 are affixed.In this way, opening Dynamic second motor 492, the rotation of the second motor 492 can drive second gear 491 to rotate, and the rotation of second gear 491 can drive It is moved with the second affixed mounting rack 48, the second mounting rack 48 can be slided along guide rail 11, and then drive the first affixed therewith peace It shelves 41 to move along the width direction of lathe 10, that is, the workpiece clamp pickup 45 being mounted on the first mounting rack 41 can be along lathe 10 Width direction movement.

Certainly, the first above-mentioned driving mechanism and the second driving mechanism also can be selected in the prior art along the not Tongfang of lathe 10 It is combined to the uniaxial slide unit of setting to realize.In addition, screw rod transmission machine also can be selected in the first driving mechanism and the second driving mechanism Structure is realized.

Preferably, the workpiece clamp pickup 45 in the present embodiment includes clamping frame and at least two cleat assemblies, and first drives Motivation structure is for driving clamping frame to move along the length direction of lathe 10, and the second driving mechanism is for driving clamping frame along lathe 10 Width direction movement, at least two above-mentioned gripper assemblies are installed on clamping frame and along the length direction interval point of clamping frame Cloth.Specific cleat assembly includes strap 47 and ambulatory splint 46, and strap 47 is fixed on clamping frame, activity folder Plate 46 is articulated on strap 47 by shaft.

In this way, can be rotated by ambulatory splint 46 far from strap 47,46 He of ambulatory splint when carrying out clamping operation A clamping gap can be formed between strap 47, plate can be put into clamping gap, and hereafter ambulatory splint 46 is towards leaning on Nearly strap 47 rotates, and can clamp plate, and the rotation of specific ambulatory splint 46 can be driven by micromotor, also or Ambulatory splint 46 is articulated in strap 47 by torsional spring, and torsional spring, which can provide one, makes ambulatory splint 46 towards close to strap 47 The elastic stress of movement need to only be such that ambulatory splint 46 rotates far from strap 47, clamping in clamping by external force Ambulatory splint 46 can reset under the action of elastic stress and clamp plate after plate.

Certainly, it should be noted that multiple gripper assemblies can both clamp multiple plates simultaneously, and also sectional clamps same plate Part can specifically use according to the actual situation.In addition, pneumatic-finger or gripper etc. also can be selected in above-mentioned workpiece clamp pickup 45 Other fixtures are realized.

Preferably, the front end of the strap 47 and ambulatory splint 46 is equipped with dentalation.

Preferably, punching mechanism 20 include formed punch 21, third driving mechanism 23, upper mold and with upper die structure it is matched under Mould, formed punch 21, third driving mechanism 23, upper mold and lower die are installed on lathe, and upper mold is fixed in 21 bottom end of formed punch, formed punch 21 can move under the drive of third driving mechanism 23 along the short transverse of lathe, so that upper mold and lower die are molded or be opened. Particularly, third driving mechanism 23 includes at least two press blocks 22, and at least two press blocks 22 are fixed in the top of formed punch 21 End, under the drive of at least two press block 22, formed punch 21 can be moved along the short transverse of lathe, and at least two press blocks 22 are intervally arranged along the width direction of lathe.It should be noted that the up and down motion of at least two press blocks 22 can be by existing skill Crank link mechanism or cylinder linear motion output mechanism in art are realized.

On the basis of the said structure, when being punched out operation, third driving mechanism 23 can be started, pass through at least two press Block 22 drives formed punch 21 to move up and down, so that upper die and lower die be driven to be opened and mold, can so complete stamping press.And It is by least two press blocks 22 drivings, i.e. formed punch 21 simultaneously above-mentioned formed punch 21 pumps during In reciprocatory movement, it is distributed at least two stress points in the width direction of lathe, can so make the reciprocal process of formed punch 21 Uniform force does not glance off vulnerable to the influence of reaction force, on the one hand can reduce the abrasion to lathe, on the other hand Stamping quality can be improved.

Preferably, the cutting mechanism 30 in the present embodiment includes laser cutting head 38, the 4th driving mechanism, the 5th driving machine Structure and the 6th driving mechanism specifically can drive laser cutting head 38 to transport along the length direction of lathe 10 by the 4th driving mechanism It is dynamic, drive laser cutting head 38 to move along the width direction of lathe 10 by the 5th driving mechanism, and pass through the 6th driving mechanism Laser cutting head 38 is driven to move along the short transverse of lathe 10.In this way, being transferred to cutter by workpiece clamp pickup 45 in plate Behind position, first 38 length motions along lathe 10 can be cut by laser, laser cutting head 38 can be moved to panel length direction Corresponding position at this time moves downward laser cutting head 38, while opens laser cutting head 38 along the width direction of lathe 10 Begin to move, carries out cutting operation, it so can be by plate cutting.Hereafter, first 38 length along lathe 10 can be cut by laser Direction moves to next position of the length direction of plate, repeats above-mentioned movement, completes the cutting of plate repeatedly.

It is realized it should be noted that laser knife in the prior art can be selected in laser cutting head 38 in the present embodiment.

More particularly, the 4th above-mentioned driving mechanism includes the first sliding rail 32, the first sliding block and the first erecting bed 33, First sliding rail 32 extends along the length direction of lathe 10；The bottom end of first erecting bed 33 is equipped with first sliding block, the first sliding block It is slidably matched with the first sliding rail 32；5th driving mechanism includes the second sliding rail 34, the second sliding block and the second erecting bed 35, described Second sliding rail 34 is installed on the first erecting bed 33 and extends along the width direction of lathe 10；The bottom end of second erecting bed 35 is equipped with Second sliding block, the second sliding block are slidably matched with the second sliding rail 34；6th driving mechanism includes lead screw motor 36, screw rod spiral shell Female, third sliding rail and third erecting bed 37, the third sliding rail are installed on the second erecting bed 35 and along the height of lathe 10 Direction extends；Third erecting bed 37 is slidably matched with third sliding rail；The lathe 10 of lead screw motor 36 is mounted on the second erecting bed 35 On；The screw rod of lead screw motor 36 extends along the short transverse of lathe 10；Feed screw nut connect with the wire rod thread of lead screw motor 36 And it is fixedly connected with third erecting bed 37；The laser cutting head 38 is installed on third erecting bed 37.On above structure basis On, it can be slided by the first sliding block of 33 bottom end of the first erecting bed along the first sliding rail 32, the first erecting bed 33 can be realized along machine The length direction movement of bed 10, and then laser cutting head 38 is driven to move along the length direction of lathe 10.And pass through the second installation Second sliding block of bottom end is slided along the second sliding rail 34, can realize that the second erecting bed 35 is moved in the width direction of lathe 10, into And laser cutting head 38 is driven to move along the width direction of lathe 10.Certainly, it is rotated by lead screw motor 36, screw rod can be driven Rotation, screw rod rotation drive the feed screw nut's rotation being threadedly coupled therewith, and the rotational motion of feed screw nut can be by third erecting bed 37 limitations, and then be converted into and moved along 10 short transverse of lathe, third erecting bed 37 can be moved along the short transverse of lathe 10, Even if laser cutting head 38 is moved along the short transverse of lathe 10.

Certainly, the prior art can be selected in above-mentioned the 4th driving mechanism, the 5th driving mechanism and the 6th driving mechanism In lead screw transmission mechanism realize, also or select uniaxial slide unit combination in the prior art realizing.In addition, above-mentioned Electronic sliding block sliding rail knot in the prior art can be selected in one sliding rail 32 and the first sliding block and the second sliding block and the second sliding rail 34 Structure is realized.

Preferably, above-mentioned cutting mechanism 30 further includes synchronous belt conveying mechanism 31, the conveying of synchronous belt conveying mechanism 31 The workpiece that end face is formed as cutting work station and clamps for receiving the workpiece clamp pickup 45.In this way, workpiece clamp pickup 45 can press from both sides Take plate to the conveying end face of synchronous belt conveying mechanism 31, after the conveying end face of synchronous belt conveying mechanism 31 completes cutting, together Walk the processing that the conveying sheet of well cutting to next station can be carried out directly to next step with conveying mechanism 31.

Certainly, above-mentioned punching mechanism 20 and cutting mechanism 30 also can be selected other hole punched devices in the prior art and cut Device is cut to realize.

It will be apparent to those skilled in the art that can make various other according to the above description of the technical scheme and ideas Corresponding change and deformation, and all these changes and deformation all should belong to the protection of the utility model claims Within the scope of.

Claims (9)

1. a kind of die cut combined machine, which is characterized in that including,

Lathe, lathe are equipped with stamping station and cutting work station；

Punching mechanism, punching mechanism are set on lathe and are located at stamping station；Punching mechanism is for being punched out workpiece；

Cutting mechanism, cutting mechanism are set on lathe and are located at cutting work station；Cutting mechanism is for cutting workpiece；

Workpiece transfer mechanism, workpiece transfer mechanism include workpiece clamp pickup, the first driving mechanism and the second driving mechanism, and first Driving mechanism is for driving workpiece clamp pickup to move along the length direction of lathe；Second driving mechanism is for driving workpiece clamp pickup Width direction along lathe moves；The stamping station and cutting work station are located on the motion profile of workpiece clamp pickup.

2. die cut combined machine as described in claim 1, which is characterized in that the first driving mechanism includes the first installation Frame, first motor, first gear and the first rack gear, the first mounting rack are mounted on lathe and prolong along the length direction of lathe It stretches；First rack gear is fixed on the extension of the length direction on the first mounting rack and along lathe；First gear is installed on the first mounting rack Above and with the first rack gear engage；The connection synchronous with first gear of the shaft of first motor；The workpiece clamp pickup and first gear Synchronous connection.

3. die cut combined machine as claimed in claim 2, which is characterized in that the second driving mechanism includes the second installation Frame, the second motor, second gear and the second rack gear, lathe are equipped with the guide rail extended along the width direction of lathe；Second peace It shelves the length direction extension along lathe and is slidably matched with guide rail；Second rack gear is fixed on lathe and along the width side of lathe To extension；Second gear is engaged with the second rack gear；The connection synchronous with second gear of the shaft of second motor；First mounting rack It is installed on the second mounting rack；Second mounting rack and second gear are affixed.

4. die cut combined machine as described in claim 1, which is characterized in that workpiece clamp pickup is including clamping frame and extremely Few two cleat assemblies；First driving mechanism for driving clamping frame to move along the length direction of lathe, use by the second driving mechanism It is moved in drive clamping frame along the width direction of lathe；At least two gripper assembly is installed on clamping frame and along clamping frame Length direction be spaced apart；Cleat assembly includes strap and ambulatory splint；The strap is fixed on clamping frame On；The ambulatory splint is articulated on strap by shaft.

5. die cut combined machine as claimed in claim 4, which is characterized in that the strap and ambulatory splint Front end is equipped with dentalation.

6. die cut combined machine as described in claim 1, which is characterized in that punching mechanism includes formed punch, third driving Mechanism, upper mold and with the matched lower die of upper die structure, upper mold is fixed in formed punch bottom end；The formed punch can be along the height side of lathe To movement so that upper mold and lower die are molded or be opened；Third driving mechanism is used to that formed punch to be driven to transport along the short transverse of lathe It is dynamic；Third driving mechanism includes at least two press blocks, and at least two press block is fixed in the top of formed punch and drives institute The short transverse that formed punch is stated along lathe moves, and at least two press block is intervally arranged along the width direction of lathe.

7. die cut combined machine as described in claim 1, which is characterized in that cutting mechanism includes laser cutting head, Four driving mechanisms, the 5th driving mechanism and the 6th driving mechanism, the 4th driving mechanism is for driving laser cutting head along lathe Length direction movement；5th driving mechanism is for driving laser cutting head to move along the width direction of lathe；6th driving machine Structure is for driving laser cutting head to move along the short transverse of lathe.

8. die cut combined machine as claimed in claim 7, which is characterized in that the 4th driving mechanism include the first sliding rail, First sliding block and the first erecting bed, the first sliding rail extend along the length direction of lathe；The bottom end of first erecting bed is equipped with described First sliding block, the first sliding block are slidably matched with the first sliding rail；5th driving mechanism includes the second sliding rail, the second sliding block and second Erecting bed, second sliding rail are installed on the extension of the width direction on the first erecting bed and along lathe；The bottom end of second erecting bed Equipped with second sliding block, the second sliding block is slidably matched with the second sliding rail；6th driving mechanism includes lead screw motor, screw rod spiral shell Female, third sliding rail and third erecting bed, the third sliding rail are installed on the second erecting bed and prolong along the short transverse of lathe It stretches；Third erecting bed is slidably matched with third sliding rail；The Installing machine tool of lead screw motor is on the second erecting bed；The silk of lead screw motor Bar extends along the short transverse of lathe；The connection of the wire rod thread of feed screw nut and lead screw motor simultaneously fixes company with third erecting bed It connects；The laser cutting head is installed on third erecting bed.

9. die cut combined machine as described in claim 1, which is characterized in that the cutting mechanism further includes that synchronous belt is defeated Mechanism is sent, the conveying end face of the synchronous belt conveying mechanism is formed as cutting work station and for receiving the workpiece clamp pickup clamping Workpiece.