CN107696131A - A kind of plate drilling device for automatically controlling clamping - Google Patents
A kind of plate drilling device for automatically controlling clamping Download PDFInfo
- Publication number
- CN107696131A CN107696131A CN201710394624.XA CN201710394624A CN107696131A CN 107696131 A CN107696131 A CN 107696131A CN 201710394624 A CN201710394624 A CN 201710394624A CN 107696131 A CN107696131 A CN 107696131A
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- China
- Prior art keywords
- sliding
- cavity
- sliding groove
- clamp system
- face
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B26—HAND CUTTING TOOLS; CUTTING; SEVERING
- B26D—CUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
- B26D7/00—Details of apparatus for cutting, cutting-out, stamping-out, punching, perforating, or severing by means other than cutting
- B26D7/01—Means for holding or positioning work
- B26D7/02—Means for holding or positioning work with clamping means
- B26D7/04—Means for holding or positioning work with clamping means providing adjustable clamping pressure
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B26—HAND CUTTING TOOLS; CUTTING; SEVERING
- B26F—PERFORATING; PUNCHING; CUTTING-OUT; STAMPING-OUT; SEVERING BY MEANS OTHER THAN CUTTING
- B26F1/00—Perforating; Punching; Cutting-out; Stamping-out; Apparatus therefor
- B26F1/16—Perforating by tool or tools of the drill type
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- Life Sciences & Earth Sciences (AREA)
- Forests & Forestry (AREA)
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Perforating, Stamping-Out Or Severing By Means Other Than Cutting (AREA)
Abstract
The invention discloses a kind of plate drilling device for automatically controlling clamping,Including body,Body is arranged with the first sliding groove in front and rear top end face,The clamp system that top is stretched out outside the end face of body top is slidably connected with each first sliding groove,The first extended screwed hole of left and right is provided with inside clamp system in first sliding groove,The first sliding cavity is provided with clamp system above first screwed hole,It is connected at the top of first sliding cavity provided with the first drive cavity,Sliding shoe is slidably connected in first sliding cavity,Clamping sliding groove is provided with clamp system its right end face on the right side of first sliding cavity,Pushing block is slidably connected in clamping sliding groove,At the top of sliding shoe lock out motor is installed with end face,The first taper cone pulley stretched into the first drive cavity is connected with the top of lock out motor,On the left of first drive cavity the second drive cavity is provided with the clamp system of top;The present invention is simple in construction, time saving and energy saving, it is not easy to produce deviation, improve production efficiency.
Description
Technical field
The present invention relates to technical field of board processing, specifically a kind of plate drilling device for automatically controlling clamping.
Background technology
During modern industrial production, prevented in plate punching process in order to improve the stability of sheet fabrication
Sheet material is offset, and sheet material is clamped often through fixture, traditional punching fixed mechanism needs manually to fix, time-consuming to take
Power, and stablizing effect is poor, easily produces deviation, and the accuracy and precision of punching can not ensure well, cause the effect of production
Rate and the qualification rate of workpiece product be not high, greatly reduces production efficiency, is unfavorable for the progress of production.
The content of the invention
The technical problems to be solved by the invention are to provide a kind of plate drilling device for automatically controlling clamping, and it can be solved
Certainly above-mentioned the problem of showing in the art.
The present invention is achieved through the following technical solutions:A kind of plate punching dress for automatically controlling clamping of the present invention
Put, including body, the body are arranged with the first sliding groove in front and rear top end face, slided in each first sliding groove
It is connected with top and stretches out clamp system at the top of the body outside end face, the clamp system in first sliding groove
Inside is provided with the first extended screwed hole of left and right, and being provided with first in the clamp system above first screwed hole slides
Dynamic chamber, it is connected at the top of first sliding cavity provided with the first drive cavity, sliding shoe is slidably connected in first sliding cavity,
Clamping sliding groove is provided with the clamp system its right end face on the right side of first sliding cavity, is slided in the clamping sliding groove
Pushing block is connected with, the sliding shoe top is installed with lock out motor in end face, is connected with and stretches at the top of the lock out motor
Enter the first taper cone pulley in first drive cavity, second is provided with the clamp system of the first drive cavity left side top
Drive cavity, the clamp system of the clamping sliding groove right side top is interior to be provided with the second sliding cavity, and second drive cavity is right
Be provided with the second sliding groove being extended towards right side in the clamp system of side, on the right side of second sliding groove extending end with
Be connected setting above on the left of second sliding cavity, the clamping between second drive cavity and first drive cavity
It is rotatably assorted in mechanism wall body and is connected with rotary shaft extended up and down, locking sliding shoe is provided with second sliding cavity,
The locking sliding shoe bottom is installed with the locking piece through the second sliding cavity inner bottom wall and sliding connection, and described the
Drive link is provided with two sliding grooves, the second screwed hole, the second screwed hole internal thread are provided with the drive link left end face
The second threaded rod being extended towards left side is connected with, drive link right side section stretches into second sliding cavity and end
End is provided with the pushing block for extending downwardly setting, and the clamp system is internally provided with contact sensitive device.
Preferably technical scheme, the first screwed hole screw-internal thread fit are connected with what is be extended towards the left and right sides
First threaded rod, the first threaded rod left side extending end is rotatably assorted with the first sliding groove inner left wall to be connected, institute
State the right last side of extension of the first threaded rod to be connected with the first motor, first outer surface of motor is slided embedded in described first
In groove its right end face and it is fixedly connected.
Preferably technical scheme, the body right hand top edge are provided with baffle plate, the baffle plate crown center position
Aperturing support post is installed, the baffle plate left bottom is provided with slipmat.
Preferably technical scheme, the interior lifting carriage set provided with Longitudinal extending of the aperturing support post its right end face
Groove, the interior elevating screw thread bar set provided with Longitudinal extending of the lifting carriage groove, the elevating screw thread bar bottom end and the liter
Drop sliding groove inner bottom wall is rotatably assorted connection, and the elevating screw thread bar top end is connected with lifting motor, and the lifting is electric
Machine outer surface is in the lifting carriage groove top inner wall and is fixedly connected, and is slidably connected with the lifting carriage groove
The lifting carriage block being extended towards left side, the lifting carriage block and the elevating screw thread bar spiral shell in the lifting carriage groove
Line is connected, and is fixed with drilling motor on the left of the lifting carriage block in extension, and the drilling motor bottom, which coordinates, to be connected
Grooved bit is connected to, through hole is provided with the relative body in the grooved bit bottom.
Preferably technical scheme, it is installed between the sliding shoe and the pushing block through first sliding cavity
The catch bar of the clamp system inner wall and sliding connection between the clamping sliding groove.
Preferably technical scheme, the first sliding cavity inner left wall is interior to be provided with deep gouge, the deep gouge inner left wall
The first spring is provided between the sliding shoe left-hand end.
Preferably technical scheme, the second drive cavity inner bottom part are provided with the second taper cone pulley, the rotary shaft top
Extension end is fixedly connected with second taper cone pulley, and rotary shaft bottom extending end is stretched into first drive cavity
And be fixed with to engage the 4th taper cone pulley of connection with first taper cone pulley, the second drive cavity right side inwall is provided with
The triconic wheel of connection is engaged with second taper cone pulley, extension is through the described second transmission on the left of second threaded rod
The clamp system inner wall and the connection that is rotatably assorted between chamber and second sliding groove, the second threaded rod left side are prolonged
Stretch end and stretch into second drive cavity and be fixedly connected with the triconic wheel.
Preferably technical scheme, the locking sliding shoe top are provided with the first inclined-plane, and the pushing block bottom is provided with
To slide the second inclined-plane that top pressure is connected, the locking sliding shoe bottom on the outside of the locking piece with first inclined-plane
Annular deep gouge is provided with end surface, the second bullet is provided between the annular deep gouge inner roof wall and the second sliding cavity inner bottom wall
Spring, the locking piece bottom end face are provided with skid resistant course.
Preferably technical scheme, the clamping sliding groove inner bottom wall are in same level with end face at the top of the body
Face, the clamping sliding groove right side top are provided with guiding incline.
Preferably technical scheme, the contact sensitive device include being fixedly installed on the pushing block inner left wall
Feeler and the indicator lamp for being fixedly installed on the clamp system top left side, the feeler and the indicator lamp
Electrical connection, when the pushing block is moved to the leftmost side, the feeler encounters the clamp system wall body, the contact
Sensor controls the indicator lamp to light, and indicates that the locking sliding shoe is moved to bottommost.
The beneficial effects of the invention are as follows:
1. setting the first drive cavity by being connected at the top of the first sliding cavity, be slidably connected sliding shoe in the first sliding cavity, and first slides
Clamping sliding groove is set in clamp system its right end face on the right side of dynamic chamber, clamps the pushing block that is slidably connected in sliding groove, sliding shoe top
Fixed lock out motor in end surface, the first taper cone pulley that the mating connection of lock out motor top is stretched into the first drive cavity, first passes
The second drive cavity is set on the left of dynamic chamber in the clamp system of top, the second slip is set in the clamp system of clamping sliding groove right side top
Chamber, the second sliding groove being extended towards right side is set in the clamp system on the right side of the second drive cavity, is extended on the right side of the second sliding groove
End is with the setting that is connected above the second sliding cavity left side, in the clamp system wall body between the second drive cavity and the first drive cavity
Be rotatably assorted the rotary shaft that connection is extended up and down, and locking sliding shoe is set in the second sliding cavity, and locking sliding shoe bottom is fixed
Through the second sliding cavity inner bottom wall and the locking piece of sliding connection, drive link, drive link left-hand end are set in the second sliding groove
The second screwed hole, the second threaded rod that the connection of the second screwed hole screw-internal thread fit is extended towards left side, the drive link right side are set in face
Side section is stretched into the second sliding cavity and end sets the pushing block for extending downwardly setting, so as to realize laterally fastening and longitudinally locked
Transmission control connection, realize that carry out automatic steady solid lock to the sheet material of different in width size works surely.
2. pass through the fixed clamp system run through between the first sliding cavity and clamping sliding groove between sliding shoe and pushing block
Inner wall and the catch bar of sliding connection, set deep gouge, deep gouge inner left wall and sliding shoe in the first sliding cavity inner left wall
The first spring is set between left-hand end, so as to automatically control the first taper cone pulley and the 4th taper cone pulley is automatically performed disengaging after realizing unblock
Reset work.
3. setting the first inclined-plane at the top of sliding shoe by locking, pushing block bottom sets to be coordinated to slide top pressure with the first inclined-plane
Second inclined-plane of connection, sets annular deep gouge in the locking sliding shoe bottom end face on the outside of locking piece, annular deep gouge inner roof wall and the
Set second spring between two sliding cavity inner bottom walls, locking piece bottom end face is set up defences slip layer, so as to realize automatically control pushing block with
The slip extrusion fit of sliding shoe is locked, locking piece is stretched into clamping sliding groove and completes to automatically control locking work.
4. the present invention is simple in construction, the sheet material lateral locking for automatically controlling different in width size can be realized, while is realized vertical
Transmission mating connection work and longitudinally locked work to locking, it is time saving and energy saving, and also stablizing effect is high, it is not easy to produces inclined
Difference, the accuracy and precision of punching are high, improve production efficiency.
Brief description of the drawings
For ease of explanation, the present invention is described in detail by following specific embodiment and accompanying drawing.
Fig. 1 is a kind of plate drilling device top view for automatically controlling clamping of the present invention;
Fig. 2 is the sectional view of " A-A " in Fig. 1 of the present invention;
Fig. 3 is the clamp system internal structure schematic diagram of the present invention;
Fig. 4 is structural representation when clamp system of the invention is located at the first sliding groove left-most position;
Fig. 5 is the sheet material installation position schematic diagram of the present invention;
Fig. 6 is the structural representation when pushing block of the present invention abuts with sheet material;
Fig. 7 be the present invention it is a kind of automatically control clamping plate drilling device lateral locking when structural representation;
Fig. 8 be the present invention it is a kind of automatically control clamping plate drilling device it is longitudinally locked when structural representation;
Fig. 9 is the second sliding cavity internal structure schematic diagram of the present invention.
Embodiment
As shown in Fig. 1-Fig. 9, a kind of plate drilling device for automatically controlling clamping of the invention, including body 4, the machine
Body 4 is arranged with the first sliding groove 44 in front and rear top end face, and top is slidably connected with each first sliding groove 44
The clamp system 5 that portion is stretched out outside the top end face of body 4, set inside the clamp system 5 in first sliding groove 44
There is the first extended screwed hole 51 of left and right, being provided with first in the clamp system 5 of the top of the first screwed hole 51 slides
Dynamic chamber 54, the top of the first sliding cavity 54 are connected provided with the first drive cavity 53, are slidably connected in first sliding cavity 54
There is sliding shoe 541, clamping sliding groove 52, institute are provided with its right end face of the clamp system 5 on the right side of the first sliding cavity 54
State in clamping sliding groove 52 and slidably connect pushing block 522, lock out motor 542 is installed with the top end face of sliding shoe 541,
The top of lock out motor 542 is connected with the first taper cone pulley 543 stretched into first drive cavity 53, and described first passes
The second drive cavity 56, the institute of the right side top of clamping sliding groove 52 are provided with the clamp system 5 of the dynamic left side of chamber 53 top
State and the second sliding cavity 58 is provided with clamp system 5, be provided with the clamp system 5 on the right side of the second drive cavity 56 towards right side
The second extended sliding groove 57, the right side extending end of the second sliding groove 57 and the left side of the second sliding cavity 58 top
Be connected setting, rotates and matches somebody with somebody in the wall body of the clamp system 5 between second drive cavity 56 and first drive cavity 53
Close and be connected with rotary shaft 5621 extended up and down, locking sliding shoe 581, the locking are provided with second sliding cavity 58
The bottom of sliding shoe 581 is installed with the locking piece 584 through the inner bottom wall of the second sliding cavity 58 and sliding connection, and described the
Drive link 571 is provided with two sliding grooves 57, the second screwed hole 752, second spiral shell are provided with the left end face of drive link 571
The screw-internal thread fit of pit 752 is connected with the second threaded rod 574 being extended towards left side, and the right side section of drive link 571 stretches into
In second sliding cavity 58 and end is provided with the pushing block 573 for extending downwardly setting, and the clamp system 5, which is internally provided with, to be connect
Touch sensing device.
Wherein, the screw-internal thread fit of the first screwed hole 51 is connected with the first threaded rod being extended towards the left and right sides
441, the left side extending end of the first threaded rod 441 is rotatably assorted with the inner left wall of the first sliding groove 44 and is connected, described
First threaded rod, the 441 right last side of extension is connected with the first motor 442, and the outer surface of the first motor 442 is embedded in described
In its right end face of first sliding groove 44 and it is fixedly connected, so as to realize moving left and right for automatic control and adjustment clamp system 5, meets
The sheet material locking work of different in width.
Wherein, the right hand top edge of body 4 is provided with baffle plate 41, and the crown center position of baffle plate 41 is provided with punching
Support column 42, the left bottom of baffle plate 41 are provided with slipmat 411.
Wherein, the lifting carriage groove 421 set in its right end face of aperturing support post 42 provided with Longitudinal extending, the liter
The elevating screw thread bar 422 set in sliding groove 421 provided with Longitudinal extending, the bottom end of elevating screw thread bar 422 and the liter drop
The drop inner bottom wall of sliding groove 421 is rotatably assorted connection, and the top end of elevating screw thread bar 422 is connected with lifting motor 424, institute
The outer surface of lifting motor 424 is stated in the top inner wall of lifting carriage groove 421 and is fixedly connected, the lifting carriage groove
The lifting carriage block 423 being extended towards left side is slidably connected with 421, the liter in the lifting carriage groove 421
Sliding shoe 423 is dropped to be connected with the screw thread of elevating screw thread bar 422, it is fixed in the left side extension of lifting carriage block 423
Provided with drilling motor 6, the bottom of drilling motor 6 is connected with grooved bit 61, and the bottom of grooved bit 61 is relative
Through hole 43 is provided with the body 4, the lifting punching work of grooved bit 61 is automatically controlled so as to realize, raising operating efficiency and
Punch stability.
Wherein, be installed between the sliding shoe 541 and the pushing block 522 through first sliding cavity 54 with it is described
Clamp the inner wall of the clamp system 5 between sliding groove 52 and the catch bar 523 of sliding connection.
Wherein, deep gouge 55, the inner left wall of deep gouge 55 and the cunning are provided with the inner left wall of the first sliding cavity 54
The first spring 551 is provided between the left-hand end of motion block 541, so as to realize that automatically control the first taper cone pulley 543 after unblock bores with the 4th
Shape wheel 531 is automatically performed disengaging and resets work.
Wherein, the inner bottom part of the second drive cavity 56 is provided with the second taper cone pulley 562, the top extension of rotary shaft 5621
End is fixedly connected with second taper cone pulley 562, and the bottom extending end of rotary shaft 5621 stretches into first drive cavity
In 53 and it is fixed with to engage the 4th taper cone pulley 531 of connection, second drive cavity 56 with first taper cone pulley 543
Right side inwall is provided with the triconic wheel 561 that connection is engaged with second taper cone pulley 562, the left side of the second threaded rod 574
Match somebody with somebody through the inner wall of the clamp system 5 between second drive cavity 56 and second sliding groove 57 and rotation extension
Connection is closed, the left side extending end of the second threaded rod 574 stretches into second drive cavity 56 and the triconic wheel 561
It is fixedly connected, so as to realize that the transmission of the kinetic energy of lock out motor 542 and triconic wheel 561 is connected.
Wherein, locking sliding shoe 581 top is provided with the first inclined-plane 582, the bottom of pushing block 573 provided with to
First inclined-plane 582 slides the second inclined-plane 5731 that top pressure is connected, and the locking in the outside of locking piece 584 is slided
Annular deep gouge 583, the annular inner roof wall of deep gouge 583 and the inner bottom wall of the second sliding cavity 58 are provided with the bottom end face of block 581
Between be provided with second spring 585, the bottom end face of locking piece 584 is provided with skid resistant course 586, pushing block is automatically controlled so as to realize
The 573 slip extrusion fit with locking sliding shoe 581, locking piece 584 is stretched into clamping sliding groove 52 and complete to automatically control lock
Fixed work.
Wherein, the clamping inner bottom wall of sliding groove 52 is in same level, the clamping with the top end face of body 4
The right side of sliding groove 52 top is provided with guiding incline 521, so as to conveniently realize Fast Installation.
Wherein, the contact sensitive device includes the feeler for being fixedly installed on the inner left wall of pushing block 573
8731 and the indicator lamp 50 of the top left side of clamp system 5 is fixedly installed on, the feeler 8731 and the instruction
Lamp 50 electrically connects, and when the pushing block 573 is moved to the leftmost side, the feeler 8731 encounters the clamp system 5
Wall body, the feeler 8731 control the indicator lamp 50 to light, and indicate that the locking sliding shoe 581 is moved to most bottom
Portion.
During original state, lifting carriage block 423 is located at the top position in lifting carriage groove 421, makes the bottom of drilling motor 6
The grooved bit 61 in the portion at utmost top end face away from body 4, meanwhile, pass through the first motor 442 and drive the first threaded rod
441 are rotated forward, and the left-most position that clamp system 5 is moved in the first sliding groove 44 is driven by the first threaded rod 441, this
When, pushing block 573 is located at the right-most position in the second sliding cavity 58, meanwhile, locking sliding shoe 581 is by second spring 585
Pressure on top surface, make the top left side section of the first inclined-plane 582 of locking sliding shoe 581 and the phase of the second inclined-plane 5731 of the bottom of pushing block 573
Abut, now, locking sliding shoe 581 drives locking piece 584 to be fully located in the clamping inner roof wall of sliding groove 52, meanwhile, sliding shoe
541 by the first spring 551 pressure on top surface, the right-most position for making sliding shoe 541 be located in the first sliding cavity 54 is now, sliding
First taper cone pulley 543 at the top of motion block 541 at utmost away from the 4th taper cone pulley 531, meanwhile, sliding shoe 541 passes through catch bar
The right side fragment position that 523 drive pushing blocks 522 are moved in clamping sliding groove 52.
When needing to lock perforation processing, sheet material is placed on the top end face of body 4 in the left side of slipmat 411 first,
Sheet material its right end face is set to be abutted against with the slipmat 411 as shown in figure 5, then by first in front and rear first sliding groove 44
Motor 442 drives the first threaded rod 441 in front and rear first sliding groove 44 to rotate backward, and makes in front and rear first sliding groove 44
One threaded rod 441 drives in front and rear first sliding groove 44 clamp system 5 gradually along the right direction in front and rear first sliding groove 44
Slide, until its right end face of pushing block 522 in front and rear clamp system 5 is simultaneously with sheet material away from slipmat 411 1 as shown in Figure 6
Side end face abuts against, and now, continues the first motor 442 before and after controlling in the first sliding groove 44 and drives front and rear first sliding groove 44
The first interior threaded rod 441 rotates backward, and now, pushing block 522 is driven catch bar 523 and the left-hand end of catch bar 523
Sliding shoe 541 overcomes the pressure on top surface of the first spring 551 gradually to be moved along the left direction of the first sliding cavity 54, meanwhile, pushing block 522
Gradually moved along the clamping left direction of sliding groove 52, until pushing block 522 as shown in Figure 7 is moved in clamping sliding groove 52
Left-most position, the bottom of skid resistant course 586 is in relative status with clamping the sheet material top end in sliding groove 52, now, slide
The left-most position that block 541 is moved in the first sliding cavity 54, the first spring 551 is set to be entirely retracted in deep gouge 55, meanwhile, make
Connection is engaged in the left side of one taper cone pulley 543 top with the lower right-hand side of the 4th taper cone pulley 531, now controls the first motor 442 to stop turning
It is dynamic, then drive the first taper cone pulley 543 to rotate by lock out motor 542, the 4th taper cone pulley 531 is driven by the first taper cone pulley 543
And the rotary shaft 5621 at the top of the 4th taper cone pulley 531 rotates, and drives the second taper cone pulley 562 to rotate by rotary shaft 5621, and by
Second taper cone pulley 562 drives triconic wheel 561 and the second threaded rod 574 to rotate, and drive link is driven by the second threaded rod 574
571 gradually move along the left direction of the second sliding groove 57, drive link 571 is driven pushing block 573 gradually along the second sliding cavity 58
Interior left direction movement, now, the second inclined-plane 5731 of the bottom of pushing block 573 compresses with the first inclined-plane 582 to be slidably matched, and makes
Locking sliding shoe 581 overcomes the pressure on top surface of second spring 585 gradually to be slided along the bottom direction in the second sliding cavity 58, now locks
Determining sliding shoe 581 drives locking piece 584 is mobile gradually downward to slip into clamping sliding groove 52, until pushing block 573 as shown in Figure 8
During the left-most position being moved in the second sliding cavity 58, now, locking piece 584 is set at utmost to stretch into clamping sliding groove 52
And the skid resistant course 586 of the bottom of locking piece 584 is engaged by locking with end face top pressure at the top of the sheet material in clamping sliding groove 52, is then passed through
Lifting motor 424 drives elevating screw thread bar 422 to rotate, and lifting carriage block 423 is driven along lifting carriage groove by elevating screw thread bar 422
421 bottom directions are slided, until completing drilling operation.
The beneficial effects of the invention are as follows:
1. setting the first drive cavity by being connected at the top of the first sliding cavity, be slidably connected sliding shoe in the first sliding cavity, and first slides
Clamping sliding groove is set in clamp system its right end face on the right side of dynamic chamber, clamps the pushing block that is slidably connected in sliding groove, sliding shoe top
Fixed lock out motor in end surface, the first taper cone pulley that the mating connection of lock out motor top is stretched into the first drive cavity, first passes
The second drive cavity is set on the left of dynamic chamber in the clamp system of top, the second slip is set in the clamp system of clamping sliding groove right side top
Chamber, the second sliding groove being extended towards right side is set in the clamp system on the right side of the second drive cavity, is extended on the right side of the second sliding groove
End is with the setting that is connected above the second sliding cavity left side, in the clamp system wall body between the second drive cavity and the first drive cavity
Be rotatably assorted the rotary shaft that connection is extended up and down, and locking sliding shoe is set in the second sliding cavity, and locking sliding shoe bottom is fixed
Through the second sliding cavity inner bottom wall and the locking piece of sliding connection, drive link, drive link left-hand end are set in the second sliding groove
The second screwed hole, the second threaded rod that the connection of the second screwed hole screw-internal thread fit is extended towards left side, the drive link right side are set in face
Side section is stretched into the second sliding cavity and end sets the pushing block for extending downwardly setting, so as to realize laterally fastening and longitudinally locked
Transmission control connection, realize that carry out automatic steady solid lock to the sheet material of different in width size works surely.
2. pass through the fixed clamp system run through between the first sliding cavity and clamping sliding groove between sliding shoe and pushing block
Inner wall and the catch bar of sliding connection, set deep gouge, deep gouge inner left wall and sliding shoe in the first sliding cavity inner left wall
The first spring is set between left-hand end, so as to automatically control the first taper cone pulley and the 4th taper cone pulley is automatically performed disengaging after realizing unblock
Reset work.
3. setting the first inclined-plane at the top of sliding shoe by locking, pushing block bottom sets to be coordinated to slide top pressure with the first inclined-plane
Second inclined-plane of connection, sets annular deep gouge in the locking sliding shoe bottom end face on the outside of locking piece, annular deep gouge inner roof wall and the
Set second spring between two sliding cavity inner bottom walls, locking piece bottom end face is set up defences slip layer, so as to realize automatically control pushing block with
The slip extrusion fit of sliding shoe is locked, locking piece is stretched into clamping sliding groove and completes to automatically control locking work.
4. the present invention is simple in construction, the sheet material lateral locking for automatically controlling different in width size can be realized, while is realized vertical
Transmission mating connection work and longitudinally locked work to locking, it is time saving and energy saving, and also stablizing effect is high, it is not easy to produces inclined
Difference, the accuracy and precision of punching are high, improve production efficiency.
The foregoing is only a specific embodiment of the invention, but protection scope of the present invention is not limited thereto, any
The change or replacement expected without creative work, it should all be included within the scope of the present invention.Therefore, it is of the invention
Protection domain should be determined by the scope of protection defined in the claims.
Claims (10)
1. a kind of plate drilling device for automatically controlling clamping, including body, it is characterised in that:It is right in the front and rear top end face of body
Title is provided with the first sliding groove, and the clamping machine that top is stretched out outside the end face of body top is slidably connected with each first sliding groove
Structure, is provided with the first extended screwed hole of left and right inside the clamp system in the first sliding groove, the folder above the first screwed hole
The first sliding cavity is provided with tight mechanism, is connected at the top of the first sliding cavity provided with the first drive cavity, the interior company of slip of the first sliding cavity
It is connected to sliding shoe, clamping sliding groove is provided with the clamp system its right end face on the right side of the first sliding cavity, is slided in clamping sliding groove
Pushing block is connected with, sliding shoe top is installed with lock out motor in end face, is connected with the top of lock out motor and stretches into the first biography
First taper cone pulley of dynamic intracavitary, the clamp system of the first drive cavity left side top is interior to be provided with the second drive cavity, and clamping sliding groove is right
Be provided with the second sliding cavity in clamp system above side, provided with being extended towards right side in the clamp system on the right side of the second drive cavity
The second sliding groove, on the right side of the second sliding groove extending end with the left of the second sliding cavity above be connected setting, the second drive cavity
It is rotatably assorted in clamp system wall body between the first drive cavity and is connected with rotary shaft extended up and down, the second sliding cavity
Interior to be provided with locking sliding shoe, locking sliding shoe bottom is installed with the locking through the second sliding cavity inner bottom wall and sliding connection
Part, the second sliding groove is interior to be provided with drive link, and the second screwed hole, the second screwed hole screw-internal thread fit are provided with drive link left end face
The second threaded rod being extended towards left side is connected with, drive link right side section stretches into the second sliding cavity and end is provided with to downward
The pushing block of setting is stretched, clamp system is internally provided with contact sensitive device.
A kind of 2. plate drilling device for automatically controlling clamping according to claim 1, it is characterised in that:First spiral shell
Pit screw-internal thread fit is connected with the first threaded rod being extended towards the left and right sides, the first threaded rod left side extending end
It is rotatably assorted and is connected with the first sliding groove inner left wall, the right last side of extension of the first threaded rod coordinates with the first motor
Connection, first outer surface of motor is in the first sliding groove its right end face and is fixedly connected.
A kind of 3. plate drilling device for automatically controlling clamping according to claim 1, it is characterised in that:The body is right
Side roof part edge is provided with baffle plate, and the baffle plate crown center position is provided with aperturing support post, and the baffle plate left bottom is provided with
Slipmat.
A kind of 4. plate drilling device for automatically controlling clamping according to claim 3, it is characterised in that:The punching branch
The lifting carriage groove set in dagger its right end face provided with Longitudinal extending, the lifting carriage groove is interior to be provided with what Longitudinal extending was set
Elevating screw thread bar, the elevating screw thread bar bottom end are rotatably assorted with the lifting carriage groove inner bottom wall and are connected, the lifting spiral shell
Rasp bar top end and lifting motor are connected, the lifting motor outer surface in the lifting carriage groove top inner wall and
It is fixedly connected, the lifting carriage block being extended towards left side is slidably connected with the lifting carriage groove, the lifting is slided
The lifting carriage block in dynamic groove is connected with the elevating screw thread bar screw thread, on the left of the lifting carriage block in extension
Drilling motor is fixed with, the drilling motor bottom is connected with grooved bit, the relative institute in the grooved bit bottom
State in body and be provided with through hole.
A kind of 5. plate drilling device for automatically controlling clamping according to claim 1, it is characterised in that:The sliding shoe
It is installed between the pushing block in the clamp system between first sliding cavity and the clamping sliding groove
Wall body and the catch bar of sliding connection.
A kind of 6. plate drilling device for automatically controlling clamping according to claim 1, it is characterised in that:Described first slides
Deep gouge is provided with dynamic chamber inner left wall, the first spring is provided between the deep gouge inner left wall and the sliding shoe left-hand end.
A kind of 7. plate drilling device for automatically controlling clamping according to claim 1, it is characterised in that:Described second passes
Dynamic intracavitary bottom is provided with the second taper cone pulley, and extension end is fixedly connected with second taper cone pulley at the top of the rotary shaft, institute
Rotary shaft bottom extending end is stated to stretch into first drive cavity and be fixed with to engage company with first taper cone pulley
The 4th taper cone pulley connect, the second drive cavity right side inwall are provided with the triconic that connection is engaged with second taper cone pulley
Wheel, the second threaded rod left side extension is through the clamping machine between second drive cavity and second sliding groove
Structure inner wall and the connection that is rotatably assorted, extending end is stretched into second drive cavity with described the on the left of second threaded rod
Triconic wheel is fixedly connected.
A kind of 8. plate drilling device for automatically controlling clamping according to claim 1, it is characterised in that:The locking is slided
Be provided with the first inclined-plane at the top of motion block, the pushing block bottom is provided with to slide the of top pressure mating connection with first inclined-plane
Two inclined-planes, are provided with annular deep gouge in the locking sliding shoe bottom end face on the outside of the locking piece, top in the annular deep gouge
Second spring is provided between wall and the second sliding cavity inner bottom wall, the locking piece bottom end face is provided with skid resistant course.
A kind of 9. plate drilling device for automatically controlling clamping according to claim 1, it is characterised in that:The clamping is slided
Dynamic groove inner bottom wall is in same level with end face at the top of the body, and top is provided with guiding incline on the right side of the clamping sliding groove.
A kind of 10. plate drilling device for automatically controlling clamping according to claim 1, it is characterised in that:The contact
Sensing device includes being fixedly installed on the feeler of the pushing block inner left wall and is fixedly installed on the clamp system
The indicator lamp of top left side, the feeler and indicator lamp electrical connection.
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CN201710394624.XA CN107696131A (en) | 2017-05-29 | 2017-05-29 | A kind of plate drilling device for automatically controlling clamping |
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CN201710394624.XA CN107696131A (en) | 2017-05-29 | 2017-05-29 | A kind of plate drilling device for automatically controlling clamping |
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