CN206763676U - Pipe body processing equipment - Google Patents
Pipe body processing equipment Download PDFInfo
- Publication number
- CN206763676U CN206763676U CN201720133797.1U CN201720133797U CN206763676U CN 206763676 U CN206763676 U CN 206763676U CN 201720133797 U CN201720133797 U CN 201720133797U CN 206763676 U CN206763676 U CN 206763676U
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- Prior art keywords
- process equipment
- support member
- core bar
- bar
- punch
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- 238000000034 method Methods 0.000 claims description 47
- 229940020445 flector Drugs 0.000 claims description 22
- 238000003825 pressing Methods 0.000 claims description 3
- 230000000149 penetrating effect Effects 0.000 abstract 2
- 238000005452 bending Methods 0.000 description 12
- 238000009434 installation Methods 0.000 description 12
- 230000000694 effects Effects 0.000 description 4
- 238000004080 punching Methods 0.000 description 4
- 238000005516 engineering process Methods 0.000 description 3
- 238000010586 diagram Methods 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 238000003754 machining Methods 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
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- Punching Or Piercing (AREA)
Abstract
The utility model provides a pipe body processing equipment, include: the core bar is used for penetrating in a tube cavity of the tube body to be processed; the male die is movably arranged on the core rod along the radial direction of the core rod and is provided with a protruding part used for penetrating through the pipe wall of the pipe body; the female die is provided with a die hole matched with the convex part so that the convex part penetrates out of the tube wall of the tube body and then is inserted into the die hole; the end of the core rod is provided with an anti-flat head which is used for a preset pipe section arranged in the pipe body so as to prevent the preset pipe section of the pipe body from being flat. The utility model discloses a pipe body processing equipment has solved the problem that the mode of processing the through-hole on the pipe wall of body among the prior art makes the body warp easily.
Description
Technical field
Body manufacture field is the utility model is related to, in particular to a kind of body process equipment.
Background technology
At present, there is through hole, so, when being processed to these bodys, it is necessary in the pipe on the tube wall of some bodys
It is punched out on the tube wall of body.
In the prior art, when being punched to body, body is punched merely with punch-pin, so, works as punch-pin
When being exerted a force to the tube wall of body, easily deform body, and then be unfavorable for processing through hole on the tube wall of body.
Utility model content
Main purpose of the present utility model is to provide a kind of body process equipment, of the prior art in body to solve
Tube wall on process mode the problem of easily deforming body of through hole.
To achieve these goals, the utility model provides a kind of body process equipment, including:Core bar, for wearing
In the tube chamber of body to be processed;Punch-pin, punch-pin are arranged on core bar along the radially displaceable of core bar, and convex mold, which has, to be used for
Through the lug boss of the tube wall of body;Cavity plate, cavity plate has the nib being engaged with lug boss, so that pipe of the lug boss from body
Wall is inserted in nib after passing;Wherein, the end of core bar has anti-homalocephalus, and anti-homalocephalus is used for the predetermined pipeline section being arranged in body
To prevent the predetermined pipeline section of body from becoming flat.
Further, driving track is provided with core bar, the chute being adapted with driving track, punch-pin are provided with punch-pin
By driving the cooperation of track and chute to be arranged on core bar.
Further, the bearing of trend of track is driven to favour the axis of core bar.
Further, core bar includes the first bar segment and the second bar segment, and body process equipment also includes being used to connect the first bar
The sleeve pipe of section and the second bar segment, punch-pin are arranged in the first bar segment and in sleeve pipe, are provided with the tube wall of sleeve pipe for keeping away
Allow the resigning hole of lug boss.
Further, the first bar segment is movably disposed relative to sleeve pipe, to promote punch-pin moving radially simultaneously along core bar
Lug boss is set to be passed from resigning hole.
Further, the first bar segment and the second bar segment are plugged in sleeve pipe, and are had between the first bar segment and the second bar segment
There is avoidance gap.
Further, it is provided with the second bar segment for the plug division in plug-in-sleeve, locking screw is provided with plug division
Mother, the second bar segment are connected by locking nut and sleeve pipe locking.
Further, body process equipment also includes telescopic driver, and telescopic driver is connected with core bar, anti-flat to drive
Head stretches to the precalculated position of body or retracted from the precalculated position of body.
Further, body process equipment also includes body flector, and body flector has support member and bending
Part, bool and support member around same rotation axis rotatably arranged with, body between support member and bool, with
Bent under the pressing of support member and bool around rotation axis.
Further, body flector also includes:Clamping element, clamping element are removable along the direction closer or far from support member
Set dynamicly, body is pressed on support member.
Further, body flector includes rotary shaft and swivel mount, and rotation axis overlaps with the axis of rotary shaft, rotation
Pivoted frame is rotationally arranged on swivel mount around the axis of rotary shaft with rotation axis connection, bool.
Further, bool is movably disposed towards the direction closer or far from support member, and body is pressed on
On support member.
Further, body flector also includes rotating driver, and swivel mount and support member are fixed with rotary shaft to be connected
Connect;Rotating driver and rotary shaft drive connection so that swivel mount and support member under the drive of rotary shaft around the axle of rotary shaft
Line rotates.
Body process equipment of the present utility model is realized by core bar, punch-pin, cavity plate and anti-homalocephalus is ensureing body
Crooked position it is constant it is flat on the premise of body is punched.Wherein, core bar is located in the tube chamber of body to be processed, convex
Mould is arranged on core bar along the radially displaceable of core bar, and convex mold has the lug boss for the tube wall through body, negative mold
Have the nib being engaged with lug boss, so as to so that lug boss from the tube wall of body pass after insert nib in, to complete to manage
The punching of body.By having anti-homalocephalus in the end of core bar, anti-homalocephalus is used to be arranged on the position to be bent of body to prevent pipe
The crooked position of body becomes flat, easily makes body so as to solve the mode of the prior art that through hole is processed on the tube wall of body
The problem of deformation.
Brief description of the drawings
The Figure of description for forming the part of the application is used for providing further understanding to of the present utility model, this practicality
New schematic description and description is used to explain the utility model, does not form to improper restriction of the present utility model.
In the accompanying drawings:
Fig. 1 shows the part-structure schematic diagram of the embodiment according to body process equipment of the present utility model;
Fig. 2 shows that the structure to be cooperated between punch-pin and cavity plate according to body process equipment of the present utility model is shown
It is intended to;
Fig. 3 shows the part-structure schematic diagram for including core bar according to body process equipment of the present utility model;
Fig. 4 shows the partial enlarged drawing figure of the body process equipment in Fig. 3;
Fig. 5 shows that the structure to be cooperated between core bar and punch-pin according to body process equipment of the present utility model is shown
It is intended to;
Fig. 6 shows the structural representation of the punch-pin according to body process equipment of the present utility model;
Fig. 7 shows the structural representation of the sleeve pipe according to body process equipment of the present utility model;
Fig. 8 shows the structural representation of the body flector according to body process equipment of the present utility model;
Fig. 9 shows the structural representation that flat instrument is prevented according to the body of body process equipment of the present utility model;And
Figure 10 shows the structural representation of the anti-homalocephalus according to body process equipment of the present utility model.
Wherein, above-mentioned accompanying drawing marks including the following drawings:
10th, core bar;111st, the first bar segment;112nd, the second bar segment;120th, punch-pin;121st, lug boss;122nd, chute;123rd, pacify
Dress portion;130th, cavity plate;131st, nib;132nd, mounting groove;140th, track is driven;150th, sleeve pipe;151st, resigning hole;160th, grafting
Portion;170th, locking nut;
11st, main rod body;20th, anti-homalocephalus;21st, installation portion;22nd, main part;23rd, end head;24th, section is clamped;30th, support
Section;40th, changeover portion;50th, telescopic driver;60th, support member;61st, the first tube seat;70th, bool;71st, the 3rd tube seat;80th, press from both sides
Tight part;81st, the second tube seat;90th, base;91st, the first slide rail;92nd, the first sliding block;310th, swivel mount;311st, the second slide rail;312、
Second sliding block;320th, rotating driver;330th, the first sprocket wheel;340th, the second sprocket wheel;350th, driving-chain;360th, rotary shaft.
Embodiment
It should be noted that in the case where not conflicting, the feature in embodiment and embodiment in the application can phase
Mutually combination.Describe the utility model in detail below with reference to the accompanying drawings and in conjunction with the embodiments.
The utility model has passed through a kind of body process equipment, refer to Fig. 1 to Figure 10, and body process equipment includes:Core
Bar 10, for being located in the tube chamber of body to be processed;Punch-pin 120, punch-pin 120 are set along the radially displaceable of core bar 10
On core bar 10, punch-pin 120 has the lug boss 121 being used for through the tube wall of body;Cavity plate 130, cavity plate 130 have and projection
The nib 131 that portion 121 is engaged, so that lug boss 121 is inserted in nib 131 after being passed from the tube wall of body;Wherein, core bar 10
End there is anti-homalocephalus 20, anti-homalocephalus 20 is used to be arranged on the predetermined pipeline section in body to prevent the predetermined pipeline section of body from becoming
It is flat.
Body process equipment of the present utility model is realized by core bar 10, punch-pin 120, cavity plate 130 and anti-homalocephalus 20
Ensure body crooked position it is constant it is flat on the premise of body is punched.Wherein, core bar 10 is located in pipe to be processed
In the tube chamber of body, punch-pin 120 is arranged on core bar 10 along the radially displaceable of core bar 10, and punch-pin 120, which has, to be used for through pipe
The lug boss 121 of the tube wall of body, cavity plate 130 has the nib 131 being engaged with lug boss 121, so as to so that lug boss 121
Inserted after being passed from the tube wall of body in nib 131, to complete the punching of body.By the way that there is anti-homalocephalus in the end of core bar 10
20, anti-homalocephalus 20 is used to be arranged on the position to be bent of body to prevent the crooked position of body from becoming flat, existing so as to solve
The problem of mode in processing through hole on the tube wall of body in technology easily deforms body.
Wherein, the body that core bar 10, anti-homalocephalus 20 and telescopic driver 50 are formed in the present embodiment prevents flat instrument.
Preferably, rotation axis overlaps with the axis of support member 60.
In order that radial direction of the punch-pin 120 along core bar 10 is telescopically disposed on core bar 10, and as shown in Figure 2 and Figure 5, core bar
Driving track 140 is provided with 10, the chute 122 being adapted with driving track 140 is provided with punch-pin 120, punch-pin 120 passes through
The cooperation of track 140 and chute 122 is driven to be arranged on core bar 10.By being provided with driving track 140 on core bar 10, and
The chute 122 being adapted with driving track 140 is provided with punch-pin 120, punch-pin 120 is by driving track 140 and chute 122
Coordinate and be arranged on core bar 10, so that punch-pin 120 can be telescopically disposed on core bar 10 along the radial direction of core bar 10.
In order to cause the lug boss 121 on punch-pin 120 to be passed from the tube wall of body, the extension side of track 140 is driven
To the axis for favouring core bar 10.So, when core bar 10 moves along its axis, because punch-pin 120 is in the axial direction side of core bar 10
To motionless, now, punch-pin 120 moves in the drive lower edge driving track 140 of core bar 10, and drives the bearing of trend of track 140
The axis of core bar 10 is favoured, so, the meeting of punch-pin 120 moving radially along core bar 10, so as to the lug boss 121 on punch-pin 120
Passed from the tube wall of body.
As shown in Figure 4 and Figure 5, core bar 10, which includes the first bar segment 111 and the second bar segment 112, body process equipment, also includes
For connecting the sleeve pipe 150 of the first bar segment 111 and the second bar segment 112, punch-pin 120 is arranged in the first bar segment 111 and positioned at set
In pipe 150, the resigning hole 151 for avoiding lug boss 121 is provided with the tube wall of sleeve pipe 150.The present embodiment is covered by setting
Pipe 150, it can both play a part of connecting the first bar segment 111 and the second bar segment 112, it can also be ensured that punch-pin 120 and core bar 10
Connection, prevent punch-pin 120 from being come off from core bar 10.
In order to promote the moving radially along core bar 10 of punch-pin 120, as shown in figure 4, the first bar segment 111 is relative to sleeve pipe
150 are movably disposed, to promote the moving radially and make lug boss 121 be passed from resigning hole 151 along core bar 10 of punch-pin 120.
By the way that the first bar segment 111 is movably disposed relative to sleeve pipe 150, punch-pin 120 can be promoted by mobile first bar segment 111
Moving radially and make lug boss 121 be passed from resigning hole 151 along core bar 10.Now, track 140 is driven from the first bar segment 111
The end face relative with the second bar segment 112 is directed away from the direction extension of the second bar segment 112.Preferably, the extension of track 140 is driven
Length is more than the diameter of the first bar segment 111.
In order to ensure that the first bar segment 111 has enough mobile spaces, as shown in figure 4, the first bar segment 111 and the second bar
Section 112 is plugged in sleeve pipe 150, and is had between the first bar segment 111 and the second bar segment 112 and avoided gap.By by first
The bar segment 112 of bar segment 111 and second is plugged in sleeve pipe 150, and is made to have between the first bar segment 111 and the second bar segment 112 and kept away
Allow gap, it is ensured that the first bar segment 111 there are enough mobile spaces, so as to promote punch-pin by mobile first bar segment 111
120 moving radially and make lug boss 121 be passed from resigning hole 151 along core bar 10.
Specifically, the diameter of resigning hole 151 is slightly larger than the diameter of lug boss 121, as the diameter of resigning hole 151 compares lug boss
The 121 big 1mm of diameter.So, can make the lug boss of the tube wall that lug boss 121 jacks up from resigning hole 151 and lug boss 121 it
Between squeeze off, and then the completely punching to tube wall.
Preferably, it is provided with the second bar segment 112 for the plug division 160 in plug-in-sleeve 150, is set on plug division 160
Locking nut 170 is equipped with, the second bar segment 112 is connected by locking nut 170 and the locking of sleeve pipe 150.Set is inserted into plug division 160
After in pipe 150, rotational lock nut 170, coordinate the end face of locking nut 170 and sleeve pipe 150, can be so that the second bar segment
112 lock with sleeve pipe 150.
In order to make core bar 10 stretch into the precalculated position of body or extracted out out of body, as shown in figure 9, body processing is set
Standby also to include telescopic driver 50, telescopic driver 50 is connected with core bar 10, to drive anti-homalocephalus 20 to stretch to the predetermined of body
Position is retracted from the precalculated position.By being provided with telescopic driver 50 on body process equipment, wherein, telescopic driver
50 are connected with core bar 10, by telescopic driver 50 core bar 10 can be driven to move, so that anti-homalocephalus 20 stretches to the pre- of body
Positioning is put or retracted from the precalculated position of body.
In order to realize the bending to body, body process equipment also includes body flector, and body flector has
Support member 60 and bool 70, bool 70 and support member 60 are around same rotation axis rotatably arranged with body is positioned at branch
Between support member 60 and bool 70, to be bent under the pressing of support member 60 and bool 70 around rotation axis.
In order to realize the bending to body, body process equipment also includes body flector, and body flector has
The axis of support member 60 and bool 70, bool 70 and support member 60 around support member 60 is rotatably arranged with body is located at
Between support member 60 and bool 70, and bent under the promotion of bool 70 around support member 60.
In order to which body is pressed on support member 60, body flector also includes:Clamping element 80, the edge of clamping element 80
It is movably disposed closer or far from the direction of support member 60, body is pressed on support member 60.By being bent in body
Clamping element 80 is provided with instrument, can by clamping element 80 along the direction closer or far from support member 60 movably, with this will pipe
Body is pressed on support member 60.Preferably, clamping element 80 and bool 70 are set around support member 60.
In order to realize the rotation of rotary shaft 360, as shown in figure 8, body flector includes rotary shaft 360 and swivel mount
310, rotation axis overlaps with the axis of rotary shaft 360, swivel mount 310 around rotary shaft 360 axis rotationally with rotary shaft
360 connections, bool 70 are arranged on swivel mount 310.By being provided with rotating driver 320 on body flector, its
In, rotating driver 320 and the drive connection of rotary shaft 360, by rotating driver 320 rotary shaft 360 can be driven to rotate, from
And axis of the swivel mount 310 around rotary shaft 360 under the drive of rotary shaft 360 is rotated.
Preferably, bool 70 is movably disposed towards the direction closer or far from support member 60, and body is compressed
On support member 60.
In order to realize that bool 70 is movably disposed towards the direction closer or far from support member 60, on swivel mount 310
The second slide rail 311 is provided with, the second sliding block 312 being adapted with the second slide rail 311 is provided with the second slide rail 311, second slides
Block 312 is movably disposed along the second slide rail 311, and bool 70 is arranged on the second sliding block 312.
Preferably, bool 70 is movably disposed towards the direction closer or far from support member 60, the direction of bool 70
Support member 60 is moved so that body is pressed on support member 60.
In order to realize the rotation of rotary shaft 360, as shown in figure 8, body flector also includes rotating driver 320, rotation
Pivoted frame 310 and support member 60 are fixedly connected with rotary shaft 360;Rotating driver 320 and the drive connection of rotary shaft 360, so that
The axis of swivel mount 310 and support member 60 around rotary shaft 360 under the drive of rotary shaft 360 rotates.By bending work in body
Rotating driver 320 is provided with tool, wherein, rotating driver 320 and the drive connection of rotary shaft 360, pass through rotating driver
320 can drive rotary shaft 360 to rotate so that swivel mount 310 under the drive of rotary shaft 360 around the axle of rotary shaft 360
Line rotates.
In order that punch-pin 120 is arranged on core bar 10, as shown in fig. 6, punch-pin 120 includes installation portion 123, chute 122 is set
Put on installation portion 123, lug boss 121 is arranged on side of the installation portion 123 away from chute 122.By being set on punch-pin 120
There is installation portion 123, wherein, chute 122 is arranged on installation portion 123, and lug boss 121 is arranged on installation portion 123 away from chute
122 side, so that during the axial movement of core bar 10, the lug boss 121 on punch-pin 120 passes from the tube wall of body
Insert afterwards in the nib 131 on cavity plate 130.
In order to realize that the first bar segment 111 is movably disposed relative to sleeve pipe 150, body process equipment also includes driving
Dynamic device, drive device and the drive connection of the first bar segment 111, to drive the first bar segment 111 to move along its axis.Preferably, should
Drive device is drive cylinder, and the piston rod of drive cylinder is connected with the first bar segment 111.
In order to realize the cooperation of core bar 10 and cavity plate, as shown in Fig. 2 cavity plate 130 has mounting groove 132, core bar 10
In mounting groove 132, nib 131 communicates with mounting groove 132., can be with by being provided with mounting groove 132 on cavity plate 130
More easily realize the placement of core bar 10.Preferably, cavity plate 130 is movably disposed, and then can avoid cavity plate 130 and its
The interference of his part.
In order to ensure to process through hole on tube wall to be cylindric, lug boss 121 is cylindric, and nib 131 is and projection
The cylindrical hole that portion 121 is engaged.
In order to which body is compressed by clamping element 80 and support member 60, as shown in figure 8, be provided with support member 60 with
The first tube seat 61 that body matches, the second tube seat 81 to match with body is provided with clamping element 80, support member 60 passes through
First tube seat 61 is contacted with body, and clamping element 80 is contacted by the second tube seat 81 with body.By being provided with support member 60
The first tube seat 61 to match with body, the second tube seat 81 to match with body is provided with clamping element 80, and support member 60 is logical
Cross the first tube seat 61 to contact with body, clamping element 80 is contacted by the second tube seat 81 with body, can be more easily by body
Compress.
In order to realize the bending of body by the rotation of bool 70 and support member 60, the first tube seat 61 is gone for a stroll
The rotation axis of bent part 70 is set.By the way that rotation axis of first tube seat 61 around bool 70 is set, bool can be passed through
70 rotate around support member 60 so as to realize the bending of body.
Now, the second tube seat 81 is straight-line groove, and the bearing of trend of the second tube seat 81 is identical with the bearing of trend of core bar.
In order to cause clamping element 80 to be moved towards support member 60, body flector includes base 90, on base 90
The first slide rail 91 is provided with, the first sliding block 92 being adapted with the first slide rail 91, the first sliding block 92 are provided with the first slide rail 91
It is mounted slidably along the first slide rail 91, clamping element 80 is arranged on the first sliding block 92.
The present embodiment is provided with the first slide rail 91 by being provided with base 90 on body flector, and on base 90,
Be provided with the first sliding block 92 being adapted with the first slide rail 91 on first slide rail 91, the first sliding block 92 along the first slide rail 91 slidably
Ground is set, can be by making the first sliding block 92 slide and clamping element by the way that clamping element 80 is arranged on the first sliding block 92
80 move towards support member 60.
In order to realize the bending to body by bool 70, to match with body is provided with bool 70
Three tube seats 71, bool 70 are contacted by the 3rd tube seat 71 with body.Matched by being provided with bool 70 with body
The 3rd tube seat 71, bool 70 contacted by the 3rd tube seat 71 with body, so as in bool 70 around 60 turns of support member
When dynamic so that body is bent under the promotion of bool 70 around support member 60.Preferably, the 3rd tube seat 71 is straight-line groove.Right
Before body bending, the bearing of trend of the 3rd tube seat 71 is identical with the bearing of trend of core bar 10;After body bending, the 3rd pipe
The bearing of trend for extending perpendicularly to core bar 10 of groove 71.
In order to realize the rotation of bool 70, body flector includes rotary shaft 360 and swivel mount 310, rotation
Axis is overlapped with the axis of rotary shaft 360, and swivel mount 310 is rotationally connected around the axis of rotary shaft 360 with rotary shaft 360,
Bool 70 is arranged on swivel mount 310.By being provided with rotary shaft 360 and swivel mount 310 on body flector, its
In, swivel mount 310 is rotationally connected around the axis of rotary shaft 360 with rotary shaft 360, by the way that bool 70 is arranged on into rotation
On frame 310, swivel mount 310 can be caused to drive bool 70 to be rotated around rotary shaft 360.
Preferably, bool 70 is movably disposed towards the direction closer or far from support member 60, and body is compressed
On support member 60.
In order to realize that bool 70 is movably disposed towards the direction closer or far from support member 60, on swivel mount 310
The second slide rail 311 is provided with, the second sliding block 312 being adapted with the second slide rail 311 is provided with the second slide rail 311, second slides
Block 312 is movably disposed along the second slide rail 311, and bool 70 is arranged on the second sliding block 312.
The present embodiment is provided with and second by being provided with the second slide rail 311 on swivel mount 310 on second slide rail 311
The second sliding block 312 that slide rail 311 is adapted, wherein, the second sliding block 312 is movably disposed along the second slide rail 311, by will be curved
Bent part 70 is arranged on the second sliding block 312, can be moved by the second sliding block 312 on the second slide rail 311 so as to drive bending
Part 70 moves.
Preferably, rotating driver 320 is motor, and the first sprocket wheel 330 is provided with the output shaft of motor, rotation
The second sprocket wheel 340 is provided with rotating shaft 360, driving-chain 350 is arranged with the first sprocket wheel 330 and the second sprocket wheel 340.
In order to prevent the crooked position of body from becoming flat, the end of core bar 10 has anti-homalocephalus 20, and anti-homalocephalus 20 is used to set
In the easy flat tube section of body to prevent easy flat tube section from becoming flat.When carrying out bending machining to body, anti-homalocephalus 20 extend into clamping
Between part 80 and support member 60.
In order to which anti-homalocephalus 20 is arranged on core bar 10, as shown in figure 9, core bar 10 includes main rod body 11, anti-homalocephalus
20 are removably mounted in main rod body 11.By being provided with main rod body 11 on core bar 10, by the way that anti-homalocephalus 20 is detachable
Ground is arranged in main rod body 11, can realize the need for being arranged on different anti-homalocephalus 20 and meeting different bodys on core bar 10 with this
Ask.
In order to ensure that anti-homalocephalus 20 plays anti-flat effect to body, as shown in figure 9, main rod body 11 and anti-homalocephalus 20 are same
Axle is set.It by the way that main rod body 11 and anti-homalocephalus 20 are coaxially disposed, can ensure in body BENDING PROCESS, ensure unbent
Pipeline section remains straight.
In order to which anti-homalocephalus 20 is removably mounted in main rod body 11, as shown in Figure 10, set in main rod body 11
There is mounting hole, anti-homalocephalus 20 has installation portion 21, and installation portion 21 is plugged in mounting hole.By being provided with peace in main rod body 11
Hole is filled, and anti-homalocephalus 20 has the installation portion 21 being adapted with mounting hole, by the way that installation portion 21 is plugged in mounting hole so that
Anti- homalocephalus 20 is removably mounted in main rod body 11.
Preferably, mounting hole is screwed hole, and the external screw thread being adapted with screwed hole is provided with installation portion.
In order to ensure that anti-homalocephalus can play anti-flat effect, anti-homalocephalus 20 includes main part 22 and is arranged on the end of main part 22
The end head 23 in portion, end head 23 are ball-crown body.By being provided with main part 22 on anti-homalocephalus 20 and being arranged on main part 22
The end head 23 of end, by the way that end head 23 is arranged into ball-crown body, ensure that anti-homalocephalus can play anti-flat effect.
In order to ensure each section structural integrity matching of anti-homalocephalus 20, main part 22 includes supporting section 30, and supporting section 30 is circle
Frustum, end head 23 are arranged on the bigger diameter end of the frustum of a cone, and the miner diameter end of the frustum of a cone is used to be connected with main rod body 11.
Preferably, main part 22 also includes changeover portion 40, and one end of changeover portion 40 is connected with supporting section 30, changeover portion 40
The other end is connected with end head 23.
In order to which anti-homalocephalus 20 is arranged in main rod body 11, as shown in Figure 10, it is provided with anti-homalocephalus 20 for making
The clamping section 24 of clamping device clamping.By being provided with the clamping section for clamping clamping device on anti-homalocephalus 20
24, it is used to clamp anti-homalocephalus 20 when anti-homalocephalus 20 is arranged in main rod body 11.
As can be seen from the above description, the utility model the above embodiments realize following technique effect:
Body process equipment of the present utility model is realized by core bar 10, punch-pin 120, cavity plate 130 and anti-homalocephalus 20
Ensure body crooked position it is constant it is flat on the premise of body is punched.Wherein, core bar 10 is located in pipe to be processed
In the tube chamber of body, punch-pin 120 is arranged on core bar 10 along the radially displaceable of core bar 10, and punch-pin 120, which has, to be used for through pipe
The lug boss 121 of the tube wall of body, cavity plate 130 has the nib 131 being engaged with lug boss 121, so as to so that lug boss 121
Inserted after being passed from the tube wall of body in nib 131, to complete the punching of body.By the way that there is anti-homalocephalus in the end of core bar 10
20, anti-homalocephalus 20 is used to be arranged on the position to be bent of body to prevent the crooked position of body from becoming flat, existing so as to solve
The problem of mode in processing through hole on the tube wall of body in technology easily deforms body.
Preferred embodiment of the present utility model is the foregoing is only, is not limited to the utility model, for this
For the technical staff in field, the utility model can have various modifications and variations.It is all in the spirit and principles of the utility model
Within, any modification, equivalent substitution and improvements made etc., it should be included within the scope of protection of the utility model.
Claims (13)
- A kind of 1. body process equipment, it is characterised in that including:Core bar (10), for being located in the tube chamber of body to be processed;Punch-pin (120), the punch-pin (120) are arranged on the core bar (10) along the radially displaceable of the core bar (10), The punch-pin (120) has the lug boss (121) being used for through the tube wall of the body;Cavity plate (130), the cavity plate (130) has the nib (131) being engaged with the lug boss (121), so that described convex Rise after portion (121) pass from the tube wall of the body and insert in the nib (131);Wherein, the end of the core bar (10) has anti-homalocephalus (20), and the anti-homalocephalus (20) is used to be arranged in the body Predetermined pipeline section with prevent the predetermined pipeline section of the body become it is flat.
- 2. body process equipment according to claim 1, it is characterised in that be provided with driving track on the core bar (10) (140) chute (122) being adapted with the driving track (140), the punch-pin (120), are provided with the punch-pin (120) It is arranged on by the driving track (140) and the cooperation of the chute (122) on the core bar (10).
- 3. body process equipment according to claim 2, it is characterised in that the bearing of trend of the driving track (140) Favour the axis of the core bar (10).
- 4. body process equipment according to claim 1, it is characterised in that the core bar (10) includes the first bar segment (111) and the second bar segment (112), the body process equipment also includes being used for connecting first bar segment (111) and described the The sleeve pipe (150) of two bar segments (112), the punch-pin (120) are arranged on first bar segment (111) and are located at described sleeve pipe (150) in, the resigning hole (151) for avoiding the lug boss (121) is provided with the tube wall of described sleeve pipe (150).
- 5. body process equipment according to claim 4, it is characterised in that first bar segment (111) is relative to described Sleeve pipe (150) is movably disposed, to promote the punch-pin (120) moving radially and make the projection along the core bar (10) Portion (121) passes from the resigning hole (151).
- 6. body process equipment according to claim 4, it is characterised in that first bar segment (111) and described second Bar segment (112) is plugged in described sleeve pipe (150), and is had between first bar segment (111) and second bar segment (112) There is avoidance gap.
- 7. body process equipment according to claim 4, it is characterised in that be provided with use on second bar segment (112) In inserting the plug division (160) in described sleeve pipe (150), locking nut (170) is provided with the plug division (160), it is described Second bar segment (112) is connected by the locking nut (170) and described sleeve pipe (150) locking.
- 8. body process equipment according to claim 1, it is characterised in that the body process equipment also includes flexible drive Dynamic device (50), the telescopic driver (50) are connected with the core bar (10), described to drive the anti-homalocephalus (20) to stretch to The precalculated position of body is retracted from the precalculated position of the body.
- 9. body process equipment according to claim 1, it is characterised in that it is curved that the body process equipment also includes body Bent instrument, the body flector have support member (60) and bool (70), the bool (70) and the support member (60) around same rotation axis rotatably arranged with, the body be located at the support member (60) and the bool (70) it Between, to be bent under the pressing of the support member (60) and the bool (70) around the rotation axis.
- 10. body process equipment according to claim 9, it is characterised in that the body flector also includes:Clamping element (80), the clamping element (80) are movably disposed along the direction closer or far from the support member (60), with The body is pressed on the support member (60).
- 11. body process equipment according to claim 10, it is characterised in that the body flector includes rotary shaft (360) overlapped with swivel mount (310), the rotation axis with the axis of the rotary shaft (360), the swivel mount (310) around The axis of the rotary shaft (360) is rotationally connected with the rotary shaft (360), and the bool (70) is arranged on the rotation On pivoted frame (310).
- 12. body process equipment according to claim 11, it is characterised in that the bool (70) is towards close or remote Direction from the support member (60) is movably disposed, and the body is pressed on the support member (60).
- 13. body process equipment according to claim 12, it is characterised in that the body flector also includes rotation Driver (320), the swivel mount (310) and the support member (60) are fixedly connected with the rotary shaft (360);The rotation Turn driver (320) and the rotary shaft (360) drive connection, so that the swivel mount (310) and support member (60) are described Axis under the drive of rotary shaft (360) around the rotary shaft (360) rotates.
Priority Applications (1)
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CN201720133797.1U CN206763676U (en) | 2017-02-14 | 2017-02-14 | Pipe body processing equipment |
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CN201720133797.1U CN206763676U (en) | 2017-02-14 | 2017-02-14 | Pipe body processing equipment |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106825158A (en) * | 2017-02-14 | 2017-06-13 | 珠海格力智能装备技术研究院有限公司 | Pipe body processing equipment |
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2017
- 2017-02-14 CN CN201720133797.1U patent/CN206763676U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106825158A (en) * | 2017-02-14 | 2017-06-13 | 珠海格力智能装备技术研究院有限公司 | Pipe body processing equipment |
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