CN106311914B - One kind is without rivet flexibility mould integrating device - Google Patents
One kind is without rivet flexibility mould integrating device Download PDFInfo
- Publication number
- CN106311914B CN106311914B CN201610782119.8A CN201610782119A CN106311914B CN 106311914 B CN106311914 B CN 106311914B CN 201610782119 A CN201610782119 A CN 201610782119A CN 106311914 B CN106311914 B CN 106311914B
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- binding clasp
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D39/00—Application of procedures in order to connect objects or parts, e.g. coating with sheet metal otherwise than by plating; Tube expanders
- B21D39/03—Application of procedures in order to connect objects or parts, e.g. coating with sheet metal otherwise than by plating; Tube expanders of sheet metal otherwise than by folding
- B21D39/031—Joining superposed plates by locally deforming without slitting or piercing
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D37/00—Tools as parts of machines covered by this subclass
- B21D37/02—Die constructions enabling assembly of the die parts in different ways
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D43/00—Feeding, positioning or storing devices combined with, or arranged in, or specially adapted for use in connection with, apparatus for working or processing sheet metal, metal tubes or metal profiles; Associations therewith of cutting devices
- B21D43/003—Positioning devices
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Insertion Pins And Rivets (AREA)
Abstract
The present invention relates to one kind without rivet flexibility mould integrating device, belong to riveting set field, the device includes sliding block and base module, sliding block is installed among base module, sliding block is by hole slot upper plate, lower nib groove, tapped through hole, mould under cylinder, stopping means forms, base module is by screw rod, bearing member plate, runner block, plate Quick-clamped positioner forms, screw rod in base module passes through the tapped through hole on sliding block to realize the connection of two modules, sliding block controls it to be moved forward and backward along the axis direction of screw rod by the screw rod in base module, to realize the switching of mould under different cylinders.The present invention can both meet that single-point connected, also Mulit-point Connection can be met, different lower moulds can be switched according to different process requirements to realize the connection of the formation different-shape under the effect of same upper die punch, it is strong that lower die cut changes flexibility, simple to operate, the present invention is simple in construction, is easy to process, it is versatile, it is flexible big.
Description
Technical field
The present invention relates to attachment means between a kind of sheet metal, and in particular to one kind is without rivet flexibility mould collection
Into belonging to riveting set field.
Background technology
With the fast development of automobile industry, some new interconnection techniques are applied to the processing and manufacturing of parts step by step
It is central.The poor-performings such as traditional spot welding, the connection reliability of projection welding, dynamic fatigue, riveting better performances, but conventional riveting
The automaticity connect is relatively low, using with certain limitation.Principle without rivet method is to utilize ram impacts quilt
Plate is riveted, due to depositing mould under the constraints, plate is deformed into as self-locking structure.Compared with traditional band nail riveting, no rivet
Riveting technology is not present punching, send nail step, has simple, efficient, the more low advantage of cost.Meanwhile realized by this method
Connection product quality it is preferable, have been widely used at present among industrial products.
The frock that existing no rivet interlacement technique is equipped with is mostly single lower mould fixed mode, is such as applied for a patent
CN203330279U, i.e., to various forms of products, worker need to change lower mould accordingly, and labor intensity is higher, and complex steps,
Production efficiency is relatively low.Minority has the device for setting multiple different lower moulds, such as applies for a patent CN204234597U, but lower mould is fixed
On die holder, it can only realize multiple spot while process, the overall flexibility of device is poor, and integration degree is low, and use range is narrow.
The content of the invention
In order to which further genralrlization is without rivet technology, for current condition, the present invention provides a kind of soft without rivet
Property mould integrating device, can effectively realize the connection between sheet metal, overcome existing mould very flexible, integrated
The shortcomings of degree is low, feature is poor.
One kind is without rivet flexibility mould integrating device, it is characterised in that described device includes sliding block and base
Seat module, the sliding block are installed among the base module,
The sliding block is divided into upper and lower two parts, by under hole slot upper plate, lower nib groove, tapped through hole, cylinder
Mould, stopping means composition,
The top of the sliding block is divided into mould under described hole slot upper plate and described cylinder, on the hole slot upper plate
The stepped throughhole of multiple default processing is equally spacedly distributed with, mould is multiple under the cylinder, is respectively embedded into the through hole
In,
The bottom of the sliding block is divided into described lower nib groove, described tapped through hole, described stopping means,
The lower nib groove is connected and is disposed below with the hole slot upper plate, is equally spacedly distributed on the lower nib groove
Have a ladder hole of quantity identical with the through hole on the hole slot upper plate, the diameter of the ladder hole and position distribution with it is described
Through hole on hole slot upper plate is consistent, and corresponding each through hole is arranged concentrically,
The tapped through hole is arranged at the lower section of through hole on the lower nib groove, the center line of the tapped through hole with it is described
The center line of through hole is generally aligned in the same plane and is mutually perpendicular on lower nib groove,
Among through hole of the stopping means on the lower nib groove, the maximum gauge of the stopping means with it is described
The maximum gauge of mould is identical under cylinder, and fitting with one heart between the two,
The base module is made up of screw rod, bearing member plate, runner block, plate Quick-clamped positioner,
The screw rod is located among the runner block and passes through the tapped through hole, realizes the sliding block and the base
The connection of seat module, the bearing member plate are located at base module top, and the plate Quick-clamped positioning is installed on the bearing member plate
Device, the plate Quick-clamped positioner are used to carry out plate positioning clamping, and the runner block is located at the base mold
In the middle part of block, the runner block is close in the lower surface of the sliding block, the upper surface of the bearing member plate and the sliding block
Upper surface is concordant, and the sliding block controls it to be moved forward and backward along the axis direction of screw rod by the screw rod, to realize difference
The switching of mould under the cylinder.
Further, the mould integrating device is also provided with sliding module position device, and the positioner includes
Positioning hole, positioning stem nut, retaining spring, locating rod, the positioning hole is in the side of the sliding block, with the cylinder
Lower modulus amount is consistent and position is corresponding with mould center line under the cylinder, and described locating rod one end has conical head, the other end
For turning end, turning end has Semicircular baffle, and the locating rod can be embedded in the positioning through described its conical head of bearing member plate
Kong Zhong, the retaining spring are sleeved in the locating rod between the positioning hole and the bearing member plate, utilize the positioning
Retaining spring described in stem nut remains compressive state, and the bearing member plate corresponding position has groove and semicolumn boss,
The retaining spring can be compressed into groove, and the Semicircular baffle in the locating rod can be convex with the semicolumn of the bearing member plate
Platform is in contact.
Further, the upper mould without riveting connection of standard is provided with the sliding block top, is set on the upper mould
There is a rubber blank holder, the external diameter of the rubber blank holder is more than the diameter of the through hole on the hole slot upper plate, and the upper mould
Maximum gauge is equal, and mould all matches with the same upper mould under all described cylinders.
Further, the through hole on the hole slot upper plate is formed by two cylinders of different sizes are stepped, institute
State through hole can be 3~7, the number of through-holes and spacing according to reality connection need be configured, the through hole it is straight
Footpath size is configured according to the diameter of mould under the cylinder and presets processing again.
Further, the stopping means is material returned spring and banking pin, and the material returned spring and the banking pin are embedding
Among the through hole on the lower nib groove, the material returned spring housing is on the banking pin, the rigidity of the material returned spring
Larger, the maximum gauge of the banking pin is identical with the maximum gauge of mould under the cylinder, and fitting with one heart between the two,
The cross section of the banking pin and the cross section of the through hole on the lower nib groove are T-shaped,
Further, the stopping means is long banking pin, and the banking pin is logical on the lower nib groove
Among hole, the bottom surface of the banking pin goes directly the via bottoms, the maximum gauge of the banking pin with the cylinder
The maximum gauge of mould is identical, and fitting with one heart between the two, the cross section of the banking pin and leading on the lower nib groove
The cross section in hole is T-shaped.
Further, the plate Quick-clamped positioner is made up of pushing-type binding clasp and spring clamp device, described
Bearing member plate is two, and described two bearing member plates are located at the sliding block both sides, described two bearing member plates on base module top
The pushing-type binding clasp and the spring clamp device are installed respectively.
Further, the pushing-type binding clasp is by pushing-type binding clasp connection sheet, pushing-type binding clasp rocking arm, pushing-type binding clasp
Push rod and pushing-type binding clasp base composition, the pushing-type binding clasp base are fixed on the bearing member plate, and the pushing-type clamps
Device base is provided with through hole, and the pushing-type binding clasp rocking arm is connected with the end of the pushing-type binding clasp base, and the pushing-type
Binding clasp rocking arm can surround end junction and rotate, and the end of the pushing-type binding clasp rocking arm is connected by the pushing-type binding clasp
Contact pin is also connected with the pushing-type binding clasp push rod, and the pushing-type binding clasp push rod passes through logical on the pushing-type binding clasp base
Hole is installed on the pushing-type binding clasp base, and the pushing-type binding clasp push rod can be driven by rotating the pushing-type binding clasp rocking arm
Moved back and forth on the pushing-type binding clasp base, first is provided with the bearing member plate below the pushing-type binding clasp push rod
Graduated scale, the pushing-type binding clasp push rod are provided with push pedal close to the end of plate, and the push pedal is provided with the second graduated scale.
Further, the spring clamp device is by spring clamp device push rod, spring clamp device base box and spring clamp device
Fastening spring forms, and the spring clamp device fastening spring is sleeved on one end of the spring clamp device push rod, is placed in described
In spring clamp device base box, the spring clamp device base box is fixed on the bearing member plate,
Push pedal is provided with the other end of the spring clamp device push rod, the push pedal is provided with the second graduated scale.
Further, the base module also includes closing panel and bolt and nut, and described runner block one end has logical
Hole, one end of the screw rod pass through the through hole of the runner block, and the other end is fixed on the closing panel with the bolt and nut
On, the lateral surface of the medial surface of the bolt and nut not with the closing panel is close to, and the closing panel is fixed on the cunning
On geosynclinal block.
Beneficial effects of the present invention are:
1. no rivet flexibility mould of the present invention is integrated can to assemble multiple different lower moulds simultaneously, can both expire
Sufficient single-point connection, can meet Mulit-point Connection again, simple in construction, be easy to process;
2. the present invention can switch different lower moulds to realize under the effect of same upper die punch according to different process requirements
The connection of different-shape is formed, once assembling finishes, is changed the outfit without dismounting, only needs adjusting screw rod to change lower mould position and realizes
Switching, the flexibility of device is strong, simple to operate;
3. the present invention has reliable positioner, meet the correct cooperation of upper die and lower die when different lower die cuts are changed, protect
The quality of connection of plate is demonstrate,proved, and positioning method is simple, efficiency high, highly reliable.
4. the present invention has reliable plate Quick-clamped positioner, the quick clip tightening to processing sheet material can be achieved
Position, ensure the accuracy of tie point position, it is simple to operate, highly reliable.
5. the present invention uses modularized design, each module is assembled by parts, is easy to the replacement and repairing of part, versatility
By force, it is flexible big.
Brief description of the drawings
Fig. 1 is the overall structural representation of patent of the present invention;
Fig. 2 is part A structural representation in Fig. 1;
Fig. 3 is part B structural representation in Fig. 1;
Fig. 4 is the structural representation of the sliding block of patent of the present invention;
Fig. 5 is C portion structural representation in Fig. 4;
Fig. 6 be patent of the present invention without the material returned when banking pin 8 assembling schematic diagram;
Fig. 7 is the overall side view of patent of the present invention;
Fig. 8 is D part-structure schematic diagrams in Fig. 7;
Fig. 9 is E part-structure schematic diagrams in Fig. 7;
Figure 10 is the overall axonometric drawing of patent of the present invention;
Figure 11 is the sliding module position device operating diagram one of patent of the present invention;
Figure 12 is the sliding module position device operating diagram two of patent of the present invention;
Figure 13 is sliding block moves schematic diagram during mould under the switching of patent of the present invention;
Figure 14 is the structural representation of the first graduated scale 28 of patent of the present invention;
Figure 15 is the original state schematic diagram of the sheet material clamping positioner of patent of the present invention;
Figure 16 is the working state schematic representation of the sheet material clamping positioner of patent of the present invention.
Reference:1st, hole slot upper plate, 2, lower nib groove, 3, positioning hole, 4, tapped through hole, 5, screw, 6, under cylinder
Mould, 7, material returned spring, 8, banking pin, 9, screw rod, 10, closing panel, 11, bolt and nut, 12, bearing member plate, 13, base, 14, sliding
Geosynclinal block, 15, positioning stem nut, 16, retaining spring, 17, locating rod, 18, mould on cylinder, 19, plate, 20, pushing-type binding clasp
Connection sheet, 21, pushing-type binding clasp rocking arm, 22, pushing-type binding clasp push rod, 23, pushing-type binding clasp base, 24, spring clamp device pushes away
Bar, 25, spring clamp device base box, 26, spring clamp device fastening spring, 27, rubber blank holder, the 28, first graduated scale, 29,
Two graduated scales.
Embodiment
The invention will be further described with embodiment for explanation below in conjunction with the accompanying drawings.
Integrated the present invention relates to one kind without rivet flexibility mould, the mould is integrated to include sliding block and base mold
Block, sliding block are installed among base module.
As shown in figure 1, sliding block is divided into upper and lower two parts, by hole slot upper plate 1, lower nib groove 2, positioning hole 3 (see
Fig. 4), mould 6, material returned spring 7 and banking pin 8 form under tapped through hole 4, cylinder, upper and lower part by two screws 5 by its
It is connected as a single entity.
The top of sliding block is divided into mould 6 under hole slot upper plate 1, positioning hole 3 and multiple cylinders, first-class of hole slot upper plate 1
The stepped throughhole of multiple default processing, number of through-holes and spacing are distributed with away from ground to be needed to be configured according to the connection of reality,
The via count used in the present embodiment is 5, and through hole can be 3~7 in actual processing, and the diameter of through hole is according to cylinder
The diameter of mould 6 is configured under body presets processing again.Sliding block top is provided with the upper mould 18 without riveting connection of standard, cylinder
Lower mould 6 matches with upper mould 18, is made up of two different cylinders of diameter, from top to bottom in step type.Under cylinder
Mould 6 is embedded in the through hole on hole slot upper plate 1, the cross section of mould 6 and the cross section of matched through hole under each cylinder
It is inverted T shaped;
Plate 19 to be processed is placed between mould 18 and sliding block, and rubber blank holder 27 is provided with upper mould 18
(see Fig. 2), its external diameter is more than the diameter of the cylinder through hole on hole slot upper plate 1, and the maximum gauge of the cylinder of upper mould 18 is equal,
So that plate 19 is compacted during processing, so as to ensure the precision of connection.Under all cylinders mould 6 all with the same upper phase of mould 18
Matching, so as to meet when mould on same 18 is processed, only it need to switch mould 6 under cylinder, so that it may obtain the company of different-shape
Contact.
Positioning hole 3 is arranged in the side of sliding block upper part, and position and cylinder consistent with the quantity of mould under cylinder 6
The lower center line of mould 6 is corresponding.
The bottom of sliding block is divided into lower nib groove 2, tapped through hole 4, material returned spring 7 and banking pin 8, lower nib groove 2 with
Hole slot upper plate 1 is connected and is disposed below, and number identical with the through hole on hole slot upper plate 1 is equally spacedly distributed with lower nib groove 2
The ladder hole of amount, its diameter and consistent with the through hole on the hole slot upper plate 1 and corresponding each through hole of position distribution are concentric
Restriction relation.Tapped through hole 4 is arranged at the lower section of through hole on lower nib groove 2, the center of its center line and through hole on lower nib groove 2
Line is generally aligned in the same plane and is mutually perpendicular to.As shown in figure 5, the through hole of material returned spring 7 and banking pin 8 on lower nib groove 2 it
In, material returned spring 7 is sleeved on banking pin 8, on the cross section of banking pin 8 and lower nib groove 2 using the larger spring of rigidity
The cross section of through hole is T-shaped, and the maximum gauge of banking pin 8 is identical with the maximum gauge of mould under cylinder 6, between the two together
The heart is bonded.
When mould is in machining state, upper mould 18 by plate 19 be pressed into mould 6 under cylinder complete connection while, the material returned
Spring 7 also moves downward a small distance to via bottoms, the distance of motion and the pattern at the tie point of required shaping therewith
It is related.When upper mould 18 exits lower nib, material returned spring 7 ejects the plate 19 processed while recovering former long, from
And processing staff can be made easily to remove the plate 19 of completion of processing.Especially, as shown in fig. 6, being flat below tie point
Bottom or other without the material returned in the case of, then omit material returned spring 7, be replaced by long banking pin 8.Now, the length of through hole is inserted
Banking pin 8 bottom surface go directly via bottoms, that is, process when cylinder under mould 6 without downward motion.
As shown in Figure 1 and Figure 7, base module is by screw rod 9, closing panel 10, bolt and nut 11, two bearing member plates 12, bottoms
Seat 13, runner block 14, detent mechanism, pushing-type binding clasp and spring clamp device composition.
Base module is divided into three parts from top to bottom, as illustrated in fig. 7 and fig. 10, is topmost two pieces and is located at sliding block
The bearing member plate 12 of both sides, is separately installed with pushing-type binding clasp, spring clamp device thereon.Wherein, pushing-type binding clasp is clamped by pushing-type
Device connection sheet 20, pushing-type binding clasp rocking arm 21, pushing-type binding clasp push rod 22 and pushing-type binding clasp base 23 form, pushing-type binding clasp
Base 23 is fixed on bearing member plate 12, and pushing-type binding clasp base 23 is provided with through hole, and pushing-type binding clasp rocking arm 21 presss from both sides with pushing-type
The end connection of tight device base 23, and pushing-type binding clasp rocking arm 21 can surround end junction and rotate, pushing-type binding clasp rocking arm
21 end is also connected by pushing-type binding clasp connection sheet 20 with pushing-type binding clasp push rod 22, and pushing-type binding clasp push rod 22 is passed through and pushed away
Through hole on formula binding clasp base 23 is installed on pushing-type binding clasp base 23, and rotation pushing-type binding clasp rocking arm 21, which can drive, to be pushed away
Formula binding clasp push rod 22 moves back and forth on pushing-type binding clasp base 23, on the bearing member plate 12 below pushing-type binding clasp push rod 22
Provided with the first graduated scale 28 (see Figure 14);Spring clamp device is by spring clamp device push rod 24, spring clamp device base box 25 and spring
Binding clasp fastening spring 26 forms (see Fig. 9), and spring clamp device fastening spring 26 is sleeved on one end of spring clamp device push rod 24,
It is placed in spring clamp device base box 25, spring clamp device base box 25 is fixed on bearing member plate 12, the He of spring clamp device push rod 24
The assembly of spring clamp device fastening spring 26 can be multiple.In leaning on for pushing-type binding clasp push rod 22 and spring clamp device push rod 24
The end of nearly plate 19 is provided with push pedal, the second graduated scale 29 (see Fig. 3) positioned for plate 19 is equipped with push pedal, respectively position
In the both sides of plate 19, the centre position for the bearing member plate 12 that the first graduated scale 28 is placed in where pushing-type binding clasp, the second graduated scale 29
It is vertically arranged with the first graduated scale 28 on bearing member plate 12, is provided commonly for the positioning of plate 19.Center section is by runner block 14
Formed with the screw rod 9 among runner block 14.As shown in figure 1, wherein, one end leading to through the one end of runner block 14 of screw rod 9
Hole, other end bolt and nut 11 are fixed on closing panel 10, and the medial surface of bolt and nut 11 is not outer with closing panel 10
Side is close to, and to ensure the rotation of screw rod 9, closing panel 10 is fixed on runner block 14 by two screws 5.Bottom is bottom
Seat 13, while be also the part of the integrated bottom of whole mould.Three parts respectively by multiple screws 5 from top to bottom sequentially
Connection.
Screw rod 9 in base module, so as to realize the connection of two modules, slides through the tapped through hole 4 on sliding block
Module controls it to be moved forward and backward along the axis direction of screw rod by the screw rod 9 in base module, to realize mould 6 under different cylinders
Switching.After assembling, runner block 14, the upper surface of bearing member plate 12 and the upper surface of sliding block are close in the lower surface of sliding block
Concordantly.
Mould 6 is bonded with corresponding upper the accurate of mould 18 under cylinder when the mould is integrated into realization conversion each time, and is protected
Card sliding block is not moved when connecting work, the integrally disposed sliding module position device of the mould, such as Fig. 4, Fig. 7 and
Shown in Fig. 8, by the positioning hole 3 on sliding block and the positioning stem nut 15 on bearing member plate 12, retaining spring
16th, locating rod 17 forms, and the one end of locating rod 17 has conical head, and the other end is turning end, and turning end has Semicircular baffle, fixed
Through bearing member plate 12, its conical head can be embedded in positioning hole 3 position bar 17, and retaining spring 16 covers between positioning hole 3 and bearing member plate 12
In locating rod 17, compressive state, the corresponding position of bearing member plate 12 are remained using the retaining spring 16 of stem nut 15 is positioned
With groove and semicolumn boss, retaining spring 16 can be compressed into groove, and the Semicircular baffle in locating rod 17 can be with holding
The semicolumn boss of part plate 12 is in contact.
Specific positioning implementation process is, when needing to move sliding block, locating rod 17 to be drawn axially outward first
Go out positioning hole 3, as shown in figure 11, rotating 180 degree makes the Semicircular baffle on bar connect with the semicolumn boss on bearing member plate 12
Touch, now sliding block can pass freely through screw rod 9 and adjust its motion.When mould 6 under the required cylinder used on sliding block
When being moved near mould 18, locating rod 17 is decontroled, by continuing the motion of regulation sliding block, until the front end of locating rod 17
Conical head stops after being completely embedded into positioning hole 3, and as shown in figure 12, the power that locating rod 17 is intended to recover former length by retaining spring 16 makes
Its conical head and positioning hole 3 are close to, and the motion of limit slippage module.Wherein, the effect for positioning stem nut 15 is to make to determine in advance
The position pretension of spring 16, ensures the no-float between locating rod 17 and positioning hole 3.
, it is necessary to which the lower mould for the use of numbering being F realizes connection, the operation step of the lower mould of specific conversion in embodiment as shown in figure 13
Suddenly it is:First locating rod 17 is pulled out, then a rotating torque is applied by the turning end in screw rod 9, so that the screw rod 9 rotated
Sliding block solid line position from figure on runner block 14 is driven to move to dotted line position, it is then real with sliding module position device
Now positioning and the motion of locked sliding block.To reduce frictional resistance when sliding, the table that sliding block contacts with base module
The lubricating oil of sufficient amount is coated on face.Then as shown in Figure 15 and Figure 16, needed first to plate before placing plate 19 and processing
19 carry out positioning clamping, to ensure the accurate of tie point position.
The original state of pushing-type binding clasp is as shown in figure 15, according to the size of plate 19, with reference to first on bearing member plate 12
Graduated scale 28 (see Figure 14), pushing-type binding clasp rocking arm 21 is rotated, until the end push plate of pushing-type binding clasp push rod 22 reaches accordingly
Graduation mark position, complete a dimension on positioning;Plate 19 is placed again, with reference to the graduation mark of the second graduated scale 29 in push pedal
The positioning in another dimension is completed, that thus completes plate 19 is accurately positioned (see Figure 16), finally by spring clamp device
Spring force is realized to plate 19 and clamped.
Although the principle of the present invention is described in detail above in conjunction with the preferred embodiments of the present invention, this area skill
Art personnel are it should be understood that above-described embodiment is only the explanation to the exemplary implementation of the present invention, not to present invention bag
Restriction containing scope.Details in embodiment is simultaneously not meant to limit the scope of the invention, in the spirit without departing substantially from the present invention and
In the case of scope, any equivalent transformation based on technical solution of the present invention, simple replacement etc. are obvious to be changed, and is all fallen within
Within the scope of the present invention.
Claims (10)
1. one kind is without rivet flexibility mould integrating device, it is characterised in that described device includes sliding block and pedestal
Module, the sliding block are installed among the base module,
The sliding block is divided into upper and lower two parts, by hole slot upper plate (1), lower nib groove (2), tapped through hole (4), cylinder
Mould (6), stopping means composition under body,
The top of the sliding block is divided into mould (6) under described hole slot upper plate (1) and described cylinder, the hole slot upper plate
(1) stepped throughhole of multiple default processing is equally spacedly distributed with, mould (6) is multiple under the cylinder, is respectively embedded into
In the through hole,
The bottom of the sliding block is divided into described lower nib groove (2), described tapped through hole (4), described stopping means,
The lower nib groove (2) is connected and is disposed below with the hole slot upper plate (1), on the lower nib groove (2) equidistantly
The ladder hole of quantity identical with the through hole on the hole slot upper plate (1), the diameter of the ladder hole and position is distributed with ground
Distribution is consistent with the through hole on the hole slot upper plate (1), and corresponding each through hole is arranged concentrically,
The tapped through hole (4) is arranged at the lower section of through hole on the lower nib groove (2), the center line of the tapped through hole (4)
It is generally aligned in the same plane and is mutually perpendicular to the center line of through hole on the lower nib groove (2),
Among through hole of the stopping means on the lower nib groove (2), the maximum gauge of the stopping means with it is described
The maximum gauge of mould (6) is identical under cylinder, and fitting with one heart between the two,
The base module is made up of screw rod (9), bearing member plate (12), runner block (14), plate Quick-clamped positioner,
The screw rod (9) is located among the runner block (14) and pass through the tapped through hole (4), realize the sliding block with
The connection of the base module, the bearing member plate (12) are located at base module top, the plate are installed on the bearing member plate (12)
Expect Quick-clamped positioner, the plate Quick-clamped positioner is used to carry out positioning clamping, the cunning to plate (19)
Geosynclinal block (14) is located in the middle part of the base module, and the runner block (14), the bearing member are close in the lower surface of the sliding block
The upper surface of plate (12) is concordant with the upper surface of the sliding block, the sliding block by the screw rod (9) control its along
The axis direction of screw rod moves forward and backward, to realize the switching of mould (6) under the different cylinders.
2. no rivet flexibility mould integrating device according to claim 1, it is characterised in that the mould integrates
Sliding module position device is also provided with, the positioner includes positioning hole (3), positioning stem nut (15), retaining spring
(16), locating rod (17), the positioning hole (3) are consistent with mould (6) quantity under the cylinder in the side of the sliding block
And position is corresponding with mould (6) center line under the cylinder, described locating rod (17) one end has conical head, and the other end is rotation
End, turning end have Semicircular baffle, and it is described fixed that the locating rod (17) can be embedded in through described its conical head of bearing member plate (12)
In position hole (3), the retaining spring (16) is sleeved on the locating rod between the positioning hole (3) and the bearing member plate (12)
(17) on, compressive state, the bearing member plate (12) are remained using positioning stem nut (15) retaining spring (16)
Corresponding position has groove and semicolumn boss, and the retaining spring (16) can be compressed into groove, the locating rod
(17) Semicircular baffle on can be in contact with the semicolumn boss of the bearing member plate (12).
3. no rivet flexibility mould integrating device according to claim 1, it is characterised in that in the sliding die
Block top is provided with the upper mould (18) without riveting connection of standard, and rubber blank holder (27), the rubber are provided with the upper mould (18)
The external diameter of glue laminated flange (27) is more than the diameter of the through hole on the hole slot upper plate (1), and the maximum gauge of the upper mould (18)
Equal, mould (6) all matches with the same upper mould (18) under all described cylinders.
4. no rivet flexibility mould integrating device according to claim 1, it is characterised in that the hole slot upper plate
(1) through hole on is formed by two cylinders of different sizes are stepped, and the through hole can be 3~7, the via count
Mesh and spacing need to be configured according to the connection of reality, and the diameter of the through hole is according to mould (6) under the cylinder
Diameter is configured presets processing again.
5. no rivet flexibility mould integrating device according to claim 1, it is characterised in that the stopping means
For material returned spring (7) and banking pin (8), the material returned spring (7) and the banking pin (8) are on the lower nib groove (2)
Through hole among, the material returned spring (7) is sleeved on the banking pin (8), and the rigidity of the material returned spring (7) is larger, institute
It is identical with the maximum gauge of mould (6) under the cylinder to state the maximum gauge of banking pin (8), and fitting with one heart between the two,
The cross section of the banking pin (8) and the cross section of the through hole on the lower nib groove (2) are T-shaped,
6. no rivet flexibility mould integrating device according to claim 1, it is characterised in that the stopping means
For long banking pin (8), the banking pin (8) is embedded among the through hole on the lower nib groove (2), the banking pin (8)
Bottom surface goes directly the via bottoms, the maximum gauge phase of the maximum gauge and mould (6) under the cylinder of the banking pin (8)
Together, and between the two fitting, the cross section of the banking pin (8) are transversal with the through hole on the lower nib groove (2) with one heart
Face is T-shaped.
7. no rivet flexibility mould integrating device according to claim 1, it is characterised in that the plate is quick
Clamping and positioning device is made up of pushing-type binding clasp and spring clamp device, and the bearing member plate (12) is two, described two bearing member plates
(12) it is located at the sliding block both sides on base module top, described two bearing member plates (12) are installed the pushing-type and clamped respectively
Device and the spring clamp device.
8. no rivet flexibility mould integrating device according to claim 7, it is characterised in that the pushing-type clamps
Device is by pushing-type binding clasp connection sheet (20), pushing-type binding clasp rocking arm (21), pushing-type binding clasp push rod (22) and pushing-type binding clasp bottom
Seat (23) composition, the pushing-type binding clasp base (23) is fixed on the bearing member plate (12), and the pushing-type binding clasp base
(23) through hole is provided with, the pushing-type binding clasp rocking arm (21) is connected with the end of the pushing-type binding clasp base (23), and institute
The rotation of end junction can be surrounded by stating pushing-type binding clasp rocking arm (21), and the end of the pushing-type binding clasp rocking arm (21) passes through institute
State pushing-type binding clasp connection sheet (20) also with the pushing-type binding clasp push rod (22) to be connected, the pushing-type binding clasp push rod (22) is worn
The through hole crossed on the pushing-type binding clasp base (23) is installed on the pushing-type binding clasp base (23), rotates the pushing-type folder
Tight device rocking arm (21) can drive the pushing-type binding clasp push rod (22) to be moved back and forth on the pushing-type binding clasp base (23),
The first graduated scale (28) is provided with the bearing member plate (12) below the pushing-type binding clasp push rod (22), the pushing-type clamps
Device push rod (22) is provided with push pedal close to the end of plate (19), and the push pedal is provided with the second graduated scale (29).
9. no rivet flexibility mould integrating device according to claim 7, it is characterised in that the spring clamp
Device is made up of spring clamp device push rod (24), spring clamp device base box (25) and spring clamp device fastening spring (26), the bullet
Spring binding clasp fastening spring (26) is sleeved on one end of the spring clamp device push rod (24), is placed in the spring clamp device base
In box (25), the spring clamp device base box (25) is fixed on the bearing member plate (12),
Push pedal is provided with the other end of the spring clamp device push rod (24), the push pedal is provided with the second graduated scale (29).
10. no rivet flexibility mould integrating device according to claim 1, it is characterised in that the base mold
Block also includes closing panel (10) and bolt and nut (11), and described runner block (14) one end has a through hole, and the one of the screw rod (9)
The through hole through the runner block (14) is held, the other end is fixed on the closing panel (10) with the bolt and nut (11),
Lateral surface of the medial surface of the bolt and nut (11) not with the closing panel (10) is close to, and the closing panel (10) is fixed
On the runner block (14).
Priority Applications (1)
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CN201610782119.8A CN106311914B (en) | 2016-08-31 | 2016-08-31 | One kind is without rivet flexibility mould integrating device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201610782119.8A CN106311914B (en) | 2016-08-31 | 2016-08-31 | One kind is without rivet flexibility mould integrating device |
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CN106311914A CN106311914A (en) | 2017-01-11 |
CN106311914B true CN106311914B (en) | 2017-11-28 |
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CN201610782119.8A Expired - Fee Related CN106311914B (en) | 2016-08-31 | 2016-08-31 | One kind is without rivet flexibility mould integrating device |
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CN108943668A (en) * | 2018-05-23 | 2018-12-07 | 河南科技大学 | A kind of bending lower die and the bending machine with the bending lower die |
CN113414336A (en) * | 2021-06-29 | 2021-09-21 | 华东交通大学 | Fixed multi-station C-shaped frame device of large throat depth self-piercing riveting machine |
CN114406111A (en) * | 2022-03-14 | 2022-04-29 | 深圳市华盛源机电有限公司 | Automatic dotting device for radiator processing |
Citations (4)
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CN2548779Y (en) * | 2002-07-01 | 2003-05-07 | 联星科技股份有限公司 | Die seat for PC board puncher |
CN104275393A (en) * | 2013-11-12 | 2015-01-14 | 中国科学院宁波材料技术与工程研究所 | Reconfigurable die and forming device for same |
CN205032545U (en) * | 2015-10-12 | 2016-02-17 | 蒙城县智扬门业有限公司 | Stamping die that readily removable traded |
CN205324496U (en) * | 2016-01-28 | 2016-06-22 | 慈溪远志工业产品设计有限公司 | It connects mould to adjust snap riveting |
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Publication number | Priority date | Publication date | Assignee | Title |
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US7698797B2 (en) * | 2005-02-02 | 2010-04-20 | Ford Global Technologies | Apparatus and method for forming a joint between adjacent members |
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2016
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Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2548779Y (en) * | 2002-07-01 | 2003-05-07 | 联星科技股份有限公司 | Die seat for PC board puncher |
CN104275393A (en) * | 2013-11-12 | 2015-01-14 | 中国科学院宁波材料技术与工程研究所 | Reconfigurable die and forming device for same |
CN205032545U (en) * | 2015-10-12 | 2016-02-17 | 蒙城县智扬门业有限公司 | Stamping die that readily removable traded |
CN205324496U (en) * | 2016-01-28 | 2016-06-22 | 慈溪远志工业产品设计有限公司 | It connects mould to adjust snap riveting |
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