CN206578476U - Steel reinforcement cage welding tooling - Google Patents
Steel reinforcement cage welding tooling Download PDFInfo
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- CN206578476U CN206578476U CN201720253405.5U CN201720253405U CN206578476U CN 206578476 U CN206578476 U CN 206578476U CN 201720253405 U CN201720253405 U CN 201720253405U CN 206578476 U CN206578476 U CN 206578476U
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- Prior art keywords
- retainer ring
- sub
- sliding block
- set pipe
- screw
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Abstract
The utility model discloses a kind of steel reinforcement cage welding tooling, including fixed plate, it is provided with the fixed plate and coaxial determines retainer ring and dynamic retainer ring, it is described to determine retainer ring and the inner peripheral wall of dynamic retainer ring caves inward to form slip annular groove, sliding block is slidably connected in each slip annular groove, the sub-set pipe of fixed reinforcing bar is connected with each sliding block, the opening for being adapted and departing from for sliding block with sliding block size is provided with each slip annular groove, the fixing device for fixing sub-set pipe with slip annular groove is provided between the slip annular groove and sliding block.When the quantity increase of the screw-thread steel of required fixation, sub-set pipe is moved into from outside and is open, sliding of the sub-set pipe by sliding block with sliding annular groove, which is realized, to be positioned, and sub- sleeve pipe is fixed by fixing device;So as to reduce the screw-thread steel of steel reinforcement cage or increase under the design of screw-thread steel, by the cooperation of sliding block and slip annular groove, different service conditions are met.
Description
Technical field
The utility model is related to building field cement and pours part welding tooling, more particularly to a kind of steel reinforcement cage welding tooling.
Background technology
In bridges and culverts or high-building construction, basis is may require as requested and is driven piles, method is with utilizing machine
Device punching and water mill drilling, and hole depth reaches design requirement, then transfers steel reinforcement cage to stake holes, is inserted into conduit and carries out coagulation
Soil cast.
When concrete structure is column or strip component, the center portion thereof point does not need arrangement of reinforcement, only in concrete structure
Configuration reinforcement under the face of part ingress of air.If this component is independent, the reinforcing bar that we set this component periphery
Pre-production is good, and this is exactly steel reinforcement cage.Usual our reinforcing bar knots pre-productions such as cast-in-situ bored pile, caisson, columns
Structure is steel reinforcement cage.
Steel reinforcement cage is made up of the screw-thread steel and the steel band on screw-thread steel of many circumference array.In the prior art,
Notification number is " CN 205414793U " utility model patent discloses a kind of reinforcement welding frock, and it passes through one by one by screw thread
Steel is filled in different main annulus, is then welded in frame, realizes the welding of steel reinforcement cage.But every kind of steel reinforcement cage institute
The quantity of the screw-thread steel needed is inconsistent, for example, have the steel reinforcement cage that six roots of sensation screw-thread steel or 12 screw-thread steels are constituted, above-mentioned steel bar welding
Connect the steel reinforcement cage that frock can be only applied to single kind, after the quantity of required screw-thread steel changes, this kind of welding tooling without
Method is used.
Utility model content
The purpose of this utility model is to provide a kind of steel reinforcement cage welding tooling, it is adaptable to same diameter but screw-thread steel quantity is not
Same situation.
Above-mentioned technical purpose of the present utility model technical scheme is that:A kind of steel reinforcement cage Welder
Be provided with dress, including fixed plate, the fixed plate it is coaxial determine retainer ring and dynamic retainer ring, it is described determine retainer ring and dynamic fix
The inner peripheral wall of ring is caved inward to form slip annular groove, and sliding block, each cunning are slidably connected in each slip annular groove
It is connected with to be provided with the sub-set pipe of fixed reinforcing bar, each slip annular groove on block and is adapted and is taken off for sliding block with sliding block size
From opening, be provided between the slip annular groove and sliding block by sub-set pipe with slide annular groove fix fixing device.
By using above-mentioned technical proposal, when the screw-thread steel of steel reinforcement cage changes, fixing device makes sub-set pipe and cunning
Rotating ring groove departs from, and sub-set pipe skids off opening from sliding in annular groove by sliding block, realizes the disengaging of sub-set pipe, reduction determine retainer ring with
The sub-set pipe quantity of screw-thread steel is fixed in dynamic retainer ring;When the quantity increase of the screw-thread steel of required fixation, from outside by sub-set
Pipe moves into opening, and sliding of the sub-set pipe by sliding block with sliding annular groove, which is realized, to be positioned, and sub- sleeve pipe is carried out by fixing device
It is fixed;It is full by the cooperation of sliding block and slip annular groove so as to reduce the screw-thread steel of steel reinforcement cage or increase under the design of screw-thread steel
The different service condition of foot.
Determine retainer ring and dynamic retainer ring has extended downwardly base preferably, described, the base for determining retainer ring with it is solid
Fixed board is fixed, and the base of the dynamic retainer ring is abutted with fixed plate, the fixed ring of driving is connected with the dynamic retainer ring surely solid
Determine the screw thread vice mechanism of ring movement.
By using above-mentioned technical proposal, screw thread vice mechanism is coordinated by screw thread to be rotated, by the rotation of circumferencial direction
The movement of rectilinear direction is converted into, it is achieved thereby that determining the relative of retainer ring and dynamic retainer ring and being moved away from, meets designed
Different length steel reinforcement cage manufacture.
Preferably, the screw thread vice mechanism includes screw rod and the motor of drive screw turns, the end of the screw rod leads to
Cross bearing and be connected with determining the base rotation of retainer ring, be provided with and be connected with the sidewall thread of screw rod on the base of the dynamic retainer ring
The first screwed hole.
By using above-mentioned technical proposal, electric motor driven screw is rotated, and screw rod is connected by bearing with determining the base of retainer ring
Connect, that is, determine retainer ring when screw rod is rotated, in motionless state, base and the screw rod of dynamic retainer ring coordinate, and move retainer ring
Realize to the movement for determining retainer ring or away from determining retainer ring.
Preferably, the base for determining retainer ring is provided with least two leads, the lead is long along fixed plate
Direction extension is spent, the lead is located to be provided with the both sides of screw rod, the base of the retainer ring respectively to be slid with lead
The pilot hole of cooperation.
By using above-mentioned technical proposal, lead and pilot hole coordinate so that determine the movement of retainer ring and dynamic retainer ring
More precisely, while lead is located at the both sides of screw rod respectively;Avoid the base of dynamic retainer ring in moving process, sent out to both sides
Raw skew.
Preferably, the slip annular groove is T-shaped slip annular groove, the T-shaped vertical sectional shape for sliding annular groove is in T
Shape, the sliding block is T-shaped sliding block, and the vertical sectional shape of the T-shaped sliding block is in inverted T-shaped.
By using above-mentioned technical proposal, T-shaped slip annular groove and T-shaped sliding block coordinate, and sub-set pipe is prevented in slipping
Sub-set pipe comes off and rotated in slip annular groove, improves the fixed effect of sub-set pipe.
Preferably, relatively T-shaped sliding block opposite side is provided with the second screwed hole, second screwed hole on the sub-set pipe
Internal thread is connected with pressure rod, when the pressure rod is rotated forward, and the end of pressure rod is moved towards the inwall of sub-set pipe, by screw thread
Steel is pressed between sub-set pipe and pressure rod.
By using above-mentioned technical proposal, during pressure rod positive and negative rotation, the end of pressure rod screw-thread steel is fixed and
Release, fixed effect of the strengthened thread steel in sub-set pipe so that screw-thread steel is determining the fixed effect in retainer ring and dynamic retainer ring
Fruit is more preferably.
Preferably, the pressure rod is connected with compact heap, the compression towards the end of sub-set inside pipe wall by bearing
The groove for being provided with and coordinating with screw-thread steel on cushion, the cushion is provided with block.
By using above-mentioned technical proposal, when pressure rod is rotated, the appearance wall of cushion and screw-thread steel on compact heap connects
Touch, groove adds the contact area between cushion and screw-thread steel, the fixed effect of screw-thread steel is improved, while cushion stress
Deformed in backward, the contact area between groove and screw-thread steel is become big, pressure rod is preferably consolidated to screw-thread steel
Fixed, bearing prevents compact heap from being rotated with pressure rod, it is ensured that groove and the cooperation of screw thread steel sidewall.
Preferably, the one end of the pressure rod away from compact heap is provided with handle.
By using above-mentioned technical proposal, user's rotary handle rotates pressure rod, and handle convenient use person grips simultaneously
Rotation.
Preferably, the sub-set pipe is outward extended with outlet sleeve, second screwed hole in the second screw thread hole site
Extend in outlet sleeve.
By using above-mentioned technical proposal, pressurization pipe sleeve adds the length of the second screwed hole, it is to avoid pressure rod is in pressurization
During rock;Outlet sleeve defines pressure rod to the ultimate range of sub-set in-pipe simultaneously, it is to avoid pressure rod
Continue to exert a force after abutting between end and the inwall of sub-set pipe, it is to avoid determine retainer ring and dynamic retainer ring becomes in clamping process
Shape.
Preferably, the fixing device includes being arranged on the pin-and-hole determined in retainer ring and dynamic retainer ring, the pin-and-hole edge
Dynamic retainer ring has at least two with the axially extending of retainer ring is determined, and the circumferencial direction of retainer ring and dynamic retainer ring is determined on the pin-and-hole edge
It is uniformly distributed, is provided with to be fixedly connected with the positioning hole of respective pin hole, the positioning hole on the sub-set pipe and is fed through pin-and-hole
Bearing pin.
By using above-mentioned technical proposal, group sleeve pipe is moved to after specified location, and bearing pin inserts dowel hole and pin simultaneously
In hole, sub-set pipe and retainer ring are fixed, then soldering pin crown of roll for retainer ring outer circumference surface part, by sub-set Guan Yugu
Determine fixed, good fixing effect between ring, positioning precision height is not susceptible to deformation, by the grinding of angle grinder, can carried out bearing pin
Remove, installation and removal are convenient.
In summary, the utility model has the advantages that:When the screw-thread steel of steel reinforcement cage changes, fixed dress
Putting makes sub-set pipe depart from sliding annular groove, and sub-set pipe skids off opening by sliding block out of slip annular groove, realizes the disengaging of sub-set pipe,
Reduction is determined to fix the sub-set pipe quantity of screw-thread steel in retainer ring and dynamic retainer ring;When the quantity increase of the screw-thread steel of required fixation
When, sub-set pipe is moved into from outside and is open, sliding of the sub-set pipe by sliding block with sliding annular groove, which is realized, to be positioned, and passes through fixed dress
Put and sub- sleeve pipe is fixed;So as to reduce the screw-thread steel of steel reinforcement cage or increase under the design of screw-thread steel, pass through sliding block and cunning
The cooperation of rotating ring groove, meets different service conditions.
Brief description of the drawings
Fig. 1 is the structural representation one of embodiment, for embodying threaded rod and determining the installation relation between retainer ring;
Fig. 2 is the diagrammatic cross-section of fixed plate along its length in embodiment;
Fig. 3 is the diagrammatic cross-section of fixed plate in the width direction in embodiment;
Fig. 4 is the enlarged diagrams of A portions shown in Fig. 1, embodies the matching relationship of bearing pin and pin-and-hole;
Fig. 5 is the structural representation two of embodiment, for embodying dynamic retainer ring and determining the position relationship between retainer ring;
Fig. 6 is the enlarged diagrams of B portions shown in Fig. 5, for embodying aperture position;
Fig. 7 is embodiment neutron sleeve pipe and determines the matching relationship between retainer ring;
Fig. 8 is the enlarged diagrams of C portions shown in Fig. 7, for embodying the rotation relation between compact heap and cushion;
Fig. 9 is the diagrammatic cross-section of embodiment neutron sleeve pipe, for embodying the position between T-shaped sliding block and T-shaped slip annular groove
Put relation.
In figure, 1, fixed plate;11st, motor;12nd, screw rod;13rd, the first T-shaped guide groove;14th, the second T-shaped guide groove;2nd, it is fixed
Retainer ring;21st, base;22nd, bearing;23rd, lead;24th, the first T-shaped guide pad;3rd, retainer ring is moved;31st, the first screwed hole;
32nd, pilot hole;33rd, the second T-shaped guide pad;4th, sub-set pipe;41st, T-shaped sliding block;42nd, binding face;43rd, T-shaped slip annular groove;44th, open
Mouthful;45th, positioning hole;46th, lattice gear hole;47th, pin-and-hole;48th, bearing pin;49th, lattice block;5th, the second screwed hole;51st, outlet sleeve;52、
Pressure rod;53rd, handle;54th, compact heap;55th, cushion;56th, groove.
Embodiment
The utility model is described in further detail below in conjunction with accompanying drawing.
This specific embodiment is only to explain of the present utility model, and it is not to limitation of the present utility model, ability
Field technique personnel can make the modification without creative contribution to the present embodiment as needed after this specification is read, but
As long as all being protected in right of the present utility model by Patent Law.
Embodiment:As shown in figure 1, a kind of steel reinforcement cage welding tooling, including the fixed plate 1 fixed on the ground, fixed plate 1
On be vertically installed with two pieces be oppositely arranged determine retainer ring 2 and dynamic retainer ring 3, determining retainer ring 2 and dynamic retainer ring 3 is used to fix spiral shell
Line steel, dynamic retainer ring 3 can be relative and opposite determine retainer ring 2 and move.
As shown in figure 1, being provided with the dynamic retainer ring 3 of driving in fixed plate 1 and determining the screw thread slave of the relative movement of retainer ring 2
Structure, screw thread vice mechanism includes the motor 11 for being arranged on one end of the length direction of fixed plate 1 and the axle of motor 11 for being connected to motor 11
On screw rod 12, the bottom for determining retainer ring 2 and dynamic retainer ring 3 all extends downwardly the base 21 fitted with the upper surface of fixed plate 1,
It is provided with the base 21 for determining the lower section of retainer ring 2 and rotates the bearing 22 being connected with the end of screw rod 12, moves the base of the lower section of retainer ring 3
The first screwed hole 31 coordinated with the screw thread of screw rod 12 is provided with 21, screw rod 12 is rotated by motor 11, the dynamic retainer ring 3 of driving to
Determine retainer ring 2 to move, it is identical with the screw-thread steel length for needing to clamp;In order to improve dynamic retainer ring 3 and determine when retainer ring 2 is moved
Lead 23 is also respectively provided with the degree of accuracy, the base 21 for determining the lower section of retainer ring 2, is set on the base 21 of the dynamic lower section of retainer ring 3
The pilot hole 32 that cooperation is mutually slid with lead 23 is equipped with, so that when the control screw rod 12 of motor 11 is rotated, lead 23 is with leading
Coordinate the effect for serving correction to hole 32.
As depicted in figs. 1 and 2, the one end of fixed plate 1 along its length is provided with the first T-shaped guide groove 13, and first T-shaped leads
Width extension to groove 13 along fixed plate 1, the bottom of base 21 for determining the lower section of retainer ring 2 is provided with and the first T-shaped guide groove
The first T-shaped guide pad 24 that 13 slidings coordinate, the first T-shaped guide pad 24 can be provided with one in the bottom of base 21, and first is T-shaped
Length direction extension of the guide pad 24 along base 21, by the cooperation of the first T-shaped guide pad 24 of T-shaped guide groove 13 and first, makes
Determine one end that retainer ring 2 is fixed on fixed plate 1, motive force when overcoming the dynamic retainer ring 3 to move, while will can determine retainer ring 2 and
Width of its base 21 along fixed plate 1 is slided, and retainer ring is replaced, the different size needs of steel reinforcement cage are met.
As shown in Figure 1, Figure 2 and Figure 3, the other end of fixed plate 1 along its length is provided with the second T-shaped guide groove 14, the
Length direction extension of the two T-shaped guide grooves 14 along fixed plate 1, the second T-shaped fixing groove is provided with the width of fixed plate 1
Three, the bottom of base 21 of the dynamic lower section of retainer ring 3 is provided with the second T-shaped guide pad 33 coordinated with the second T-shaped guide groove 14, the
Width extension of the two T-shaped guide pads 33 along base 21, during the drive screw 12 of motor 11 is rotated, second T-shaped leads
Move, coordinate with lead 23 and pilot hole 32 in the second T-shaped guide groove 14 to block 33, jointly to the movement of dynamic retainer ring 3
Serve the effect that collaboration is oriented to.
As shown in Figure 1 and Figure 4, the structure for determining retainer ring 2 is identical with the structure of dynamic retainer ring 3, and the inner ring for determining retainer ring 2 is slided
Shifting is connected with sub-set pipe 4, and sub-set pipe 4 sets and determined in retainer ring 2 and dynamic retainer ring 3, put in sub-set pipe 4 for screw-thread steel respectively
Put;As shown in figure 9, the excircle side of sub-set pipe 4 is provided with T-shaped sliding block 41, as shown in fig. 7, the tube wall of sub-set pipe 4 is thicker,
Simultaneously sub-set pipe 4 be provided with make T-shaped sliding block 41 circumference side with determining retainer ring 2(Dynamic retainer ring 3)Curvature identical laminating
Contact area between face 42, binding face 42 and then the outer circumference surface of increase sub-set pipe 4 and the inner peripheral surface for determining retainer ring 2;Such as
Shown in Fig. 5, Fig. 6 and Fig. 9, determine retainer ring 2 inner peripheral surface be recessed radially inward be formed with it is T-shaped slip annular groove 43, it is T-shaped slide
Annular groove 43 is arranged concentrically with determining retainer ring 2, and the circumferential side wall for determining retainer ring 2 is provided with the T-shaped sliding block 41 of confession along the footpath for determining retainer ring 2
To the opening 44 for entering and leaving T-shaped slip annular groove 43, opening 44 is arranged on the centre position for determining the inner circumferential side wall of retainer ring 2,
Sub-set pipe 4 can be positioned, T-shaped sliding block by T-shaped sliding block 41 in the T-shaped movement slided in annular groove 43 to the position of sub- sleeve pipe 4
41 are engaged with T-shaped slip annular groove 43, make the axis of each sub-set pipe 4 and determine the diameter parallel of retainer ring 2.
As shown in figure 9, the position that sub-set pipe 4 is provided with T-shaped sliding block 41 is radially provided through T-shaped sliding block 41
Positioning hole 45, the end of positioning hole 45 is provided with lattice gear hole 46, and positioning hole 45 has three along the axially arranged of sub-set pipe 4, fixed solid
The outer circumference surface for determining ring 2 is provided with pin-and-hole 47 corresponding with positioning hole 45, the uniform battle array of circumferencial direction of the pin-and-hole 47 along sub-set pipe 4
Row, the different steel reinforcement cage of the different circumferencial direction screw-thread steel quantity of correspondence, can provide more with 45 pairs of 4 upper Positioning holes of sub-set pipe
The pin-and-hole 47 answered;Bearing pin 48 is provided through in positioning hole 45, the end of bearing pin 48 is provided with the dative gear size of hole 46 and is adapted
Lattice block 49, so as to prevent pin-and-hole 47 from moving further out, the dative of lattice block 49 gear hole 46 is engaged, to pivot pin and sub-set
Pipe 4 serves the effect of pre-determined bit, reduces error when sub-set pipe 4 is positioned;Bearing pin 48 is simultaneously through positioning hole 45 and pin-and-hole 47
And a part for bearing pin 48 protrudes from the outer circumference surface of sub-set pipe 4, the outer circumference surface of retainer ring 2 is determined by welding bearing pin 48 and protruding from
Part, serving sub-set pipe 4 and will determine the effect that retainer ring 2 is fixed.
As shown in Figure 7 and Figure 8, sub-set pipe 4 is provided with the second screwed hole 5, the second screw thread away from the opposite side of T-shaped sliding block 41
There is outlet sleeve 51 in hole 5 along extending radially outwardly for sub-set pipe 4, and the second screwed hole 5 is extended on the inner surface of outlet sleeve 51,
The internal thread of second screwed hole 5 is connected with pressure rod 52, and one end of pressure rod 52 is provided with handle 53, and the other end of pressure rod 52 leads to
Cross bearing 22 and be connected with compact heap 54, compact heap 54 and be provided with cushion 55, elastic component surface is provided with and screw-thread steel appearance
The groove 56 that face coordinates, makes pressure rod 52 be rotated into sub-set pipe 4, screw-thread steel is pressed on into sub-set pipe 4 by rotating handle 53
Inner surface on.
The adjustment process of embodiment:First determine retainer ring 2 and dynamic retainer ring 3 from corresponding with the steel reinforcement cage to be made,
Determine retainer ring 2 to move into the first T-shaped guide groove 13 in fixed plate 1 by the first T-shaped guide pad 24 on base 21, move and fix
Ring 3 is moved into the second T-shaped guide groove 14 in fixed plate 1 by the second T-shaped guide pad 33 on base 21,12 turns of drive screw
It is dynamic, retainer ring 2 will be determined close to dynamic retainer ring 3, by mobile first T-shaped guide pad 24,3 pairs of retainer ring 2 and dynamic retainer ring will be determined
Standard, finally carries out the fixation of sub-set pipe 4, from a number of sub-set pipe 4, the T-shaped sliding block 41 on sub-set pipe 4 is passed through into opening
44 move into dynamic retainer ring 3 and determine in retainer ring 2 respectively, and the positioning hole 45 on sub-set pipe 4 is aligned with pin-and-hole 47, then passes through pin
In the insertion pin-and-hole 47 of axle 48, and it will protrude above dynamic retainer ring 3 and determine the bearing pin 48 on the surface of retainer ring 2 and welded, so that by son
Sleeve pipe 4 is fixed, and completes the adjustment of steel reinforcement cage welding tooling.
The use process of embodiment:The drive screw 12 of motor 11 is rotated, and dynamic retainer ring 3 is moved away from determining retainer ring 2
To fixed screw-thread steel length is slightly shorter than, screw-thread steel is inserted in each relative sub-set pipe 4, handle 53 is screwed respectively, is made
Cushion 55 is abutted with the surface of screw-thread steel, and screw-thread steel is fixed in sub-set pipe 4, finally by the steel wire with flexibility to array
Screw-thread steel afterwards is tied up and welded, and completes the processing of steel reinforcement cage.
Claims (10)
1. it is provided with a kind of steel reinforcement cage welding tooling, including fixed plate (1), the fixed plate (1) and coaxial determines retainer ring (2)
With dynamic retainer ring (3), it is characterised in that:It is described to determine retainer ring (2) and the inner peripheral wall of dynamic retainer ring (3) caves inward to form cunning
The sub-set pipe that fixed reinforcing bar is connected with sliding block, each sliding block is slidably connected in rotating ring groove, each slip annular groove
(4) opening (44) for being adapted and departing from for sliding block with sliding block size, the slip ring, are provided with each slip annular groove
It is provided with sub-set pipe (4) between groove and sliding block with sliding the fixing device that annular groove is fixed.
2. steel reinforcement cage welding tooling according to claim 1, it is characterised in that:It is described to determine retainer ring (2) and dynamic retainer ring
(3) base (21) has been extended downwardly, the base (21) for determining retainer ring (2) is fixed with fixed plate (1), the dynamic retainer ring
(3) base (21) is abutted with fixed plate (1), and driving retainer ring (3) is connected with the dynamic retainer ring (3) to determining retainer ring
(2) mobile screw thread vice mechanism.
3. steel reinforcement cage welding tooling according to claim 2, it is characterised in that:The screw thread vice mechanism includes screw rod (12)
The motor (11) rotated with drive screw (12), the end of the screw rod (12) passes through bearing (22) and the bottom for determining retainer ring (2)
Seat (21) rotates connection, and the be connected with the sidewall thread of screw rod (12) is provided with the base (21) of the dynamic retainer ring (3)
One screwed hole (31).
4. steel reinforcement cage welding tooling according to claim 3, it is characterised in that:The base (21) for determining retainer ring (2)
At least two leads (23) are provided with, the lead (23) extends along fixed plate (1) length direction, the lead (23)
It is located to be provided with the both sides of screw rod (12), the base (21) of the retainer ring respectively and slides the guiding coordinated with lead (23)
Hole (32).
5. steel reinforcement cage welding tooling according to claim 1, it is characterised in that:The slip annular groove is T-shaped slip annular groove
(43), the T-shaped vertical sectional shape for sliding annular groove (43) is in inverted T-shaped, and the sliding block is T-shaped sliding block(41), the T-shaped sliding block
(41)Vertical sectional shape be in inverted T-shaped.
6. steel reinforcement cage welding tooling according to claim 5, it is characterised in that:Relatively T-shaped sliding block on the sub-set pipe (4)
(41)Opposite side is provided with the second screwed hole (5), and the second screwed hole (5) internal thread is connected with pressure rod (52), described to add
When depression bar (52) is rotated forward, the end of pressure rod (52) is moved towards the inwall of sub-set pipe (4), screw-thread steel is pressed on sub-set pipe
(4) between pressure rod (52).
7. steel reinforcement cage welding tooling according to claim 6, it is characterised in that:The pressure rod (52) is towards sub-set pipe
(4) end of inwall is connected with compact heap (54), the compact heap (54) by bearing (22) and is provided with cushion (55), institute
State the groove (56) for being provided with and coordinating with screw-thread steel on cushion (55).
8. steel reinforcement cage welding tooling according to claim 7, it is characterised in that:The pressure rod (52) is away from compact heap
(54) one end is provided with handle (53).
9. steel reinforcement cage welding tooling according to claim 6, it is characterised in that:The sub-set pipe (4) is in the second screwed hole
(5) position is outward extended with outlet sleeve (51), and second screwed hole (5) is extended in outlet sleeve (51).
10. steel reinforcement cage welding tooling according to claim 1, it is characterised in that:The fixing device, which includes being arranged on, determines
Pin-and-hole (47) in retainer ring (2) and dynamic retainer ring (3), the pin-and-hole (47) is along dynamic retainer ring (3) and determines the axles of retainer ring (2)
To being extended with least two, the pin-and-hole (47) is uniformly distributed along the circumferencial direction for determining retainer ring (2) and dynamic retainer ring (3), institute
State to be fixedly connected with the positioning hole (45) for being provided with respective pin hole (47) on sub-set pipe (4), the positioning hole (45) and be fed through
The bearing pin (48) of pin-and-hole (47).
Priority Applications (1)
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CN201720253405.5U CN206578476U (en) | 2017-03-15 | 2017-03-15 | Steel reinforcement cage welding tooling |
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CN201720253405.5U CN206578476U (en) | 2017-03-15 | 2017-03-15 | Steel reinforcement cage welding tooling |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107931926A (en) * | 2017-12-08 | 2018-04-20 | 蒋云 | A kind of pipe of cement framework of steel reinforcement welding supporting rack |
CN109318525A (en) * | 2018-10-12 | 2019-02-12 | 安徽英杰精工机械有限公司 | A kind of three alignment die set devices of multi-angle regulation |
CN109848633A (en) * | 2018-12-05 | 2019-06-07 | 江苏春都钢结构工程有限公司 | A kind of structural steelwork component rotation device |
CN113510422A (en) * | 2020-04-09 | 2021-10-19 | 广东博智林机器人有限公司 | Welding positioning system, working method thereof and reinforcement cage processing robot |
-
2017
- 2017-03-15 CN CN201720253405.5U patent/CN206578476U/en active Active
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107931926A (en) * | 2017-12-08 | 2018-04-20 | 蒋云 | A kind of pipe of cement framework of steel reinforcement welding supporting rack |
CN109318525A (en) * | 2018-10-12 | 2019-02-12 | 安徽英杰精工机械有限公司 | A kind of three alignment die set devices of multi-angle regulation |
CN109848633A (en) * | 2018-12-05 | 2019-06-07 | 江苏春都钢结构工程有限公司 | A kind of structural steelwork component rotation device |
CN113510422A (en) * | 2020-04-09 | 2021-10-19 | 广东博智林机器人有限公司 | Welding positioning system, working method thereof and reinforcement cage processing robot |
CN113510422B (en) * | 2020-04-09 | 2022-07-22 | 广东博智林机器人有限公司 | Welding positioning system, working method thereof and reinforcement cage machining robot |
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