CN205309670U - First for welding support frame of cement pipes steel skeletons - Google Patents
First for welding support frame of cement pipes steel skeletons Download PDFInfo
- Publication number
- CN205309670U CN205309670U CN201620038667.5U CN201620038667U CN205309670U CN 205309670 U CN205309670 U CN 205309670U CN 201620038667 U CN201620038667 U CN 201620038667U CN 205309670 U CN205309670 U CN 205309670U
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- CN
- China
- Prior art keywords
- suction bowl
- frame
- vacuum breaker
- steel reinforcement
- outer suction
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Abstract
The utility model relates to a cement tube processing equipment. A first for welding support frame of cement pipes steel skeletons, which comprises a frame, frame length direction's one end is equipped with fixed stop, the adjustable fender who is connected with with the fixed stop parallel can be dismantled through dismantling connection structure in frame length direction's middle part, the frame is equipped with the at least three supporting limiting plate who distributes along frame length direction, have at least a supporting limiting plate to be located one side that adjustable fender is close to fixed stop, have at least two supporting limiting plate to be located one side that adjustable fender kept away from fixed stop, supporting limiting plate is equipped with convexly protruding, convex bellied a plurality of first support breachs that distribute along circular arc protrusion's circumference that are equipped with on global, convex bellied axis perpendicular to fixed stop. The utility model has the advantages of can be simultaneously go to half of the reinforcing rod that constitutes the cement pipe skeleton that support spacingly and the commonality good, solve artifical fixed reinforcing rod and welded the hard just problem of inefficiency that exists.
Description
Technical field
The utility model relates to processing equipment for cement pipe, particularly relates to half portion welding bracing frame on a kind of cement pipe Framework Of Steel Reinforcement.
Background technology
At the cement pipe for water drain, communication link, culvert and electric pole, in order to improve the intensity of cement pipe, form in cement pipe concrete layer and it is provided with Framework Of Steel Reinforcement. Cement pipe device process needs first to make Framework Of Steel Reinforcement, then concrete is arranged at outside Framework Of Steel Reinforcement. Framework Of Steel Reinforcement comprises some reinforcing bar bars along the distribution of cement pipe axially extension circumference and some reinforced steel bar rings extending axial distribution along cement pipe circumference, and reinforcing bar bar and reinforced steel bar ring weld together.
When existing cement pipe Framework Of Steel Reinforcement welds by manually hold reinforcing bar bar and reinforced steel bar ring simultaneously, make the two draw close together with then weld, therefore have that make efficiency is low and the deficiency of effort.
Practical novel content
The utility model provide a kind of can simultaneously to half portion welding bracing frame on the good cement pipe Framework Of Steel Reinforcement of the half row support limit of reinforcing bar bar and versatility that form cement pipe skeleton, solve artificial fixing reinforcing bar bar weld existing for effort and inefficient problem.
Above technical problem is solved by following technical proposal: half portion welding bracing frame on a kind of cement pipe Framework Of Steel Reinforcement, comprise the frame of long strip shape, one end of described frame length direction is provided with fixing baffle plate, the middle part of described frame length direction is removably connected with the shifting board parallel with fixing baffle plate by Detachable connection structure, described frame is provided with at least three support limit plates along the distribution of frame length direction, a support limit plate is had at least to be positioned at the side of shifting board near fixing baffle plate, two support limit plates are had at least to be positioned at the side of shifting board away from fixing baffle plate, described support limit plate is provided with arc-shaped convex, the side face of described arc-shaped convex is provided with the first support breach of some circumference distributions along circular arc projection, the axes normal of described arc-shaped convex is in described fixing baffle plate.
As preferably, described Detachable connection structure comprises clip and is arranged at the anchor of described frame, and described shifting board is held in described anchor by described clip, and described anchor and shifting board distribute along the length direction of frame.
Preferred as another, described Detachable connection structure comprises the first spacing hole extended along the vertical direction being arranged at frame, be arranged at shifting board the 2nd spacing hole and the latch that simultaneously can be plugged on to plug in the first spacing hole and the 2nd spacing hole.
As preferably, described frame is provided with feet, described feet is provided with outer suction bowl, described outer suction bowl is provided with the first vacuum breaker runner and is positioned at the pulling block of outer suction bowl outside, described pulling block is provided with the first sealing plug sealing described first vacuum breaker runner, is provided with the first spring driving the first sealing plug sealing residence to state the first vacuum breaker runner in described first vacuum breaker runner. During use, undertaken adsorbing by outer suction bowl and realize the fixing of frame, when to be moved the utility model, by pulling block outward, pulling block drives the first sealing plug blow-by to live the first vacuum breaker runner thus realize the outer vacuum breaker inhaling bowl, and inhaling bowls has and also can easily mention the utility model so that outer during big absorption dynamics. Unclamp when pulling block outer is drawn effect, under the effect of the first spring, the first sealing plug reseal the first vacuum breaker runner, can adsorb normally next time.
As preferably, it is provided with interior suction bowl in described outer suction bowl, described interior suction bowl is provided with the 2nd vacuum breaker runner extending to outer suction bowl surface face, absorption ditch is formed between interior suction bowl and outer suction bowl, described pulling block is also provided with the 2nd sealing plug sealing described 2nd vacuum breaker runner, is provided with the 2nd spring driving the 2nd sealing plug sealing residence to state the 2nd vacuum breaker runner in described 2nd vacuum breaker runner. The mode of operation of interior suction bowl is identical with the mode of operation of above-mentioned outer suction bowl, does not repeat at this. During use, by extruding outer suction bowl and interior suction bowl simultaneously so that the outer internal space inhaling bowl all forms negative pressure with adsorbing in ditch, also namely carries out adsorbing by outer suction bowl together with interior suction bowl and is fixed on the ground by the utility model. When vibrated or instant impact and make outer suction bowl absorption place produce moment partial disengagement time, under the effect of interior suction bowl, after instant impact disappears, outer bowl of inhaling can recover and adsorb again, make to inhale bowl to be subject to moment impact and produce to produce vacuum breaker phenomenon when local disconnects instantaneously, and namely the decline amount of adsorptive power less can still keep good adsorption. Further increase what the utility model carried out adsorbing reliability and anti-vibration ability.
As preferably, being provided with some elasticity connecting strips that outer suction bowl and interior suction bowl link together in described absorption ditch, described elasticity connecting strip is along the circumference distribution of outer suction bowl. When outer suction bowl and interior suction bowl all adsorb upper, elasticity connecting strip is elongated and energy storage, and this energy produces the trend impelling outer suction bowl to move towards adsorbate so that when outer suction bowl produces to disconnect instantaneously, outside acceleration, suction bowl returns to adsorbed state. Also namely reduce further the possibility producing movement when receiving moment impact, also namely improve anti-moment impact ability of the present utility model in other words.
As preferably, the absorption end of described interior suction bowl exceeds the absorption end of described outer suction bowl. Inhale bowl because outer and it is positioned at outside, whether absorption can be observed intuitively, and whether interior suction bowl adsorbs and can intuitively not arrive, if so outer bowl of inhaling exceeds interior suction bowl, had the following disadvantages: by pressure little then may in inhale bowl and not adsorb, in order to guarantee, the absorption of interior suction bowl then need to use bigger power to press, and this power is much on earth and lasts long and is difficult to grasp, often cause the waste of unnecessary strength and time waste. Must adsorb as long as the technical program then inhales interior suction bowl when bowl adsorbs upper outward, so convenient and strength-saving can guarantee when using that interior suction bowl adsorbs fast.
The utility model has following advantage: can carry out supporting to the reinforcing bar bar forming Framework Of Steel Reinforcement and locate so that be convenient and strength-saving during welded reinforcement reinforcing bar.
Accompanying drawing explanation
Fig. 1 is the front elevational schematic of embodiment one.
Fig. 2 is the left view schematic diagram of embodiment one.
Fig. 3 is the schematic diagram of embodiment one when the half of the reinforcing bar bar of the Framework Of Steel Reinforcement of length length being supported.
The schematic diagram of Fig. 4 when to be embodiment one support the half of the reinforcing bar bar of the short Framework Of Steel Reinforcement of length.
Fig. 5 is the schematic diagram of the Detachable connection structure in embodiment two.
Fig. 6 is the schematic diagram of the feet in embodiment two.
In figure: frame 1, feet 11, fixing baffle plate 12, shifting board 13, outer suction bowl 2, first vacuum breaker runner 21, first sealing plug 22, first spring 23, the absorption end 24 of outer suction bowl, pulling block 25, elbow 251, Detachable connection structure 3, clip 31, anchor 32, first spacing hole 33, 2nd spacing hole 34, latch 35, support limit plate 4, arc-shaped convex 41, support breach 42, absorption ditch 6, elasticity connecting strip 61, form the reinforcing bar bar 711 of the upper semi-circle of Framework Of Steel Reinforcement, reinforced steel bar ring 72, interior suction bowl 8, 2nd vacuum breaker runner 81, 2nd sealing plug 82, 2nd spring 83, the absorption end 84 of interior suction bowl.
Embodiment
Below in conjunction with accompanying drawing and embodiment, the utility model is further described.
Embodiment one, see Fig. 1, half portion welding bracing frame on a kind of cement pipe Framework Of Steel Reinforcement, comprises frame 1, Detachable connection structure 3 and support limit plate 4. Frame 1 is provided with feet 11. Frame 1 is the long strip shape extended in left-right direction. The right-hand member of frame 1 is provided with fixing baffle plate 12. The plane at fixing baffle plate 12 place is along front and back upper and lower to the plane extended. The middle part of frame 1 is provided with shifting board 13. Shifting board 13 is parallel with fixing baffle plate 12. Detachable connection structure 3 comprises clip 31 and anchor 32. Anchor 32 is welded on frame 1. Shifting board 13 is held on anchor 32 by clip 31 and is detachably connected with frame 1. Anchor 32 and shifting board 13 distribute in left-right direction. Support limit plate 4 has 4. Support limit plate 4 distributes in left-right direction. All support limit plates 4 are all positioned at the left side of fixing baffle plate 12. Two support limit plates in 4 support limit plates 4 are connected on the position on the right side being positioned at shifting board 13 of frame, two other support limit plate is connected on the position in the left side being positioned at shifting board 13 of frame.
See Fig. 2, support limit plate 4 is provided with arc-shaped convex 41. The side face of arc-shaped convex 41 is provided with the support breach 42 of some circumference distributions along circular arc projection. The axes normal of arc-shaped convex 41 is in shifting board 13.
When the cement pipe Framework Of Steel Reinforcement of length length is welded:
The first step, see Fig. 3 and composition graphs 2, unclamp clip 31 and take off shifting board 13. Under the effect of reinforcing bar bar e Foerderanlage 9, the reinforcing bar bar 711 forming the upper semi-circle of Framework Of Steel Reinforcement is shelved in the support breach 42 on support limit plate 4 correspondingly and forms the same alignment fixed baffle plate 12 and be connected to together and realize length direction of right-hand member of the reinforcing bar bar 711 of the upper semi-circle of Framework Of Steel Reinforcement. Then by manually reinforced steel bar ring 72 being abutted together with the reinforcing bar bar 711 of the upper semi-circle forming Framework Of Steel Reinforcement, by welding set, reinforced steel bar ring 72 is welded together with the reinforcing bar bar 711 of the upper semi-circle forming Framework Of Steel Reinforcement again, namely complete the half welding of cement pipe Framework Of Steel Reinforcement.
When the cement pipe Framework Of Steel Reinforcement that length is short is welded:
The first step, see Fig. 4 and composition graphs 2, by Detachable connection structure 3, shifting board 13 is fixed on frame 1.Under the effect of reinforcing bar bar e Foerderanlage, the reinforcing bar bar 711 forming the upper semi-circle of Framework Of Steel Reinforcement is shelved on correspondingly the alignment that the right-hand member supporting in breach 42 and forming the reinforcing bar bar 711 of the upper semi-circle of Framework Of Steel Reinforcement is connected to together with shifting board 13 and realize length direction. Then by manually reinforced steel bar ring 72 being abutted together with the reinforcing bar bar 711 of the upper semi-circle forming Framework Of Steel Reinforcement, then by welding set, reinforced steel bar ring 72 is welded together with the reinforcing bar bar 711 of the upper semi-circle forming Framework Of Steel Reinforcement.
Embodiment two, with the difference of embodiment one is:
See Fig. 5, Detachable connection structure 3 comprises the first spacing hole 33, the 2nd spacing hole 34 and latch 35. First spacing hole 33 is arranged at frame 1. First spacing hole 33 extends along the vertical direction. 2nd spacing hole 34 is arranged at shifting board 13. Latch 35 can be plugged on to plug in the first spacing hole 33 and the 2nd spacing hole 34 simultaneously. It is fixed on connection by what plug latch 35 realized shifting board 13 and frame 1.
See Fig. 6, the lower end of feet 11 is provided with outer suction bowl 2. Outer suction bowl 2 outside is provided with pulling block 25. Pulling block 25 is provided with elbow 251. Outer suction bowl 2 is circular suction bowl. Outer suction bowl 2 is made for rubber. Outer suction bowl 2 is provided with the first vacuum breaker runner 21. The first sealing plug 22 and the first spring 23 it is provided with in first vacuum breaker runner 21. One end of first sealing plug 22 is fixed together with pulling block 25, the other end is located in the first vacuum breaker runner 21. First spring 23 one end links together with the inner of the first sealing plug 22, the other end links together with the wall of the first vacuum breaker runner 21. For making, the first vacuum breaker runner 21 is sealed first spring 23 by the first sealing plug 22. Interior suction bowl 8 it is provided with in outer suction bowl 2. The absorption end 84 of interior suction bowl exceeds the absorption end 24 of outer suction bowl. Interior suction bowl 8 is rubber structure. Interior suction bowl 8 and outer suction bowl 2 are structure as a whole. Interior suction bowl 8 is provided with the 2nd vacuum breaker runner 81 extending to outer suction bowl 2 outside surface. The 2nd sealing plug 82 and the 2nd spring 83 it is provided with in 2nd vacuum breaker runner 81. One end of 2nd sealing plug 82 is fixed together with pulling block 25, the other end is located in the 2nd vacuum breaker runner 81. 2nd spring 83 one end links together with the inner of the 2nd sealing plug 82, the other end is connected to two with the wall of the 2nd vacuum breaker runner 81. For making, the 2nd vacuum breaker runner 81 is sealed 2nd spring 83 by the 2nd sealing plug 82. Absorption ditch 6 is formed between interior suction bowl 8 and outer suction bowl 2. Adsorb the some elasticity connecting strips 61 being provided with outer suction bowl and interior suction bowl link together in ditch 6. Elasticity connecting strip 61 is along the circumference distribution of outer suction bowl 2. Elasticity connecting strip 61 is rubber structure. Elasticity connecting strip 61 and outer suction bowl 2 are structure as a whole. Elasticity connecting strip 61 is structure as a whole with interior suction bowl 8.
During use, outer suction bowl 2 and interior suction bowl 8 is made to carry out adsorbing and realize the fixing of frame by extruding.
Embodiment three, with the difference of embodiment two is: Detachable connection structure adopts the structure in embodiment one.
Claims (7)
1. half portion welding bracing frame on a cement pipe Framework Of Steel Reinforcement, it is characterized in that, comprise the frame of long strip shape, one end of described frame length direction is provided with fixing baffle plate, the middle part of described frame length direction is removably connected with the shifting board parallel with fixing baffle plate by Detachable connection structure, described frame is provided with at least three support limit plates along the distribution of frame length direction, a support limit plate is had at least to be positioned at the side of shifting board near fixing baffle plate, two support limit plates are had at least to be positioned at the side of shifting board away from fixing baffle plate, described support limit plate is provided with arc-shaped convex, the side face of described arc-shaped convex is provided with the first support breach of some circumference distributions along circular arc projection, the axes normal of described arc-shaped convex is in described fixing baffle plate.
2. half portion welding bracing frame on cement pipe Framework Of Steel Reinforcement according to claim 1, it is characterized in that, described Detachable connection structure comprises clip and is arranged at the anchor of described frame, described shifting board is held in described anchor by described clip, and described anchor and shifting board distribute along the length direction of frame.
3. half portion welding bracing frame on cement pipe Framework Of Steel Reinforcement according to claim 1, it is characterized in that, described Detachable connection structure comprises the first spacing hole extended along the vertical direction being arranged at frame, the 2nd spacing hole that is arranged at shifting board and the latch that simultaneously can be plugged on to plug in the first spacing hole and the 2nd spacing hole.
4. half portion welding bracing frame on cement pipe Framework Of Steel Reinforcement according to claim 1 or 2 or 3, it is characterized in that, described frame is provided with feet, described feet is provided with outer suction bowl, described outer suction bowl is provided with the first vacuum breaker runner and is positioned at the pulling block of outer suction bowl outside, described pulling block is provided with the first sealing plug sealing described first vacuum breaker runner, is provided with the first spring driving the first sealing plug sealing residence to state the first vacuum breaker runner in described first vacuum breaker runner.
5. half portion welding bracing frame on cement pipe Framework Of Steel Reinforcement according to claim 4, it is characterized in that, it is provided with interior suction bowl in described outer suction bowl, described interior suction bowl is provided with the 2nd vacuum breaker runner extending to outer suction bowl surface face, absorption ditch is formed between interior suction bowl and outer suction bowl, described pulling block is also provided with the 2nd sealing plug sealing described 2nd vacuum breaker runner, is provided with the 2nd spring driving the 2nd sealing plug sealing residence to state the 2nd vacuum breaker runner in described 2nd vacuum breaker runner.
6. half portion welding bracing frame on cement pipe Framework Of Steel Reinforcement according to claim 5, it is characterised in that, it is provided with some elasticity connecting strips that outer suction bowl and interior suction bowl link together in described absorption ditch, described elasticity connecting strip is along the circumference distribution of outer suction bowl.
7. half portion welding bracing frame on cement pipe Framework Of Steel Reinforcement according to claim 5, it is characterised in that, the absorption end of described interior suction bowl exceeds the absorption end of described outer suction bowl.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620038667.5U CN205309670U (en) | 2016-01-16 | 2016-01-16 | First for welding support frame of cement pipes steel skeletons |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620038667.5U CN205309670U (en) | 2016-01-16 | 2016-01-16 | First for welding support frame of cement pipes steel skeletons |
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CN205309670U true CN205309670U (en) | 2016-06-15 |
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CN201620038667.5U Expired - Fee Related CN205309670U (en) | 2016-01-16 | 2016-01-16 | First for welding support frame of cement pipes steel skeletons |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112440068A (en) * | 2019-08-27 | 2021-03-05 | 湖北宜飞复合新材料有限公司 | Support frame for welding cement pipe steel reinforcement framework |
-
2016
- 2016-01-16 CN CN201620038667.5U patent/CN205309670U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112440068A (en) * | 2019-08-27 | 2021-03-05 | 湖北宜飞复合新材料有限公司 | Support frame for welding cement pipe steel reinforcement framework |
CN112440068B (en) * | 2019-08-27 | 2022-08-30 | 湖北宜飞复合新材料有限公司 | Support frame for welding cement pipe steel reinforcement framework |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160615 Termination date: 20170116 |