CN205560065U - But V type conduit coupling of earthquake -resistant structure thing, antidetonation equipment and displacement - Google Patents
But V type conduit coupling of earthquake -resistant structure thing, antidetonation equipment and displacement Download PDFInfo
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- CN205560065U CN205560065U CN201620261036.XU CN201620261036U CN205560065U CN 205560065 U CN205560065 U CN 205560065U CN 201620261036 U CN201620261036 U CN 201620261036U CN 205560065 U CN205560065 U CN 205560065U
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Abstract
The utility model discloses a but V type conduit coupling of earthquake -resistant structure thing, antidetonation equipment and displacement. Wherein, but the V type conduit coupling of displacement includes first elbow, second elbow, three way elbow, first hose and second hose, the one end of first elbow is connected through first hose and three way elbow's one end, and three way elbow's the other end passes through the second hose and is connected with the one end of second elbow, three way elbow's the angle of buckling for the obtuse angle, is V style of calligraphy structure for acute angle, the angle of buckling of first elbow, second elbow after messenger V type conduit coupling is connected. The multiplicable connecting piece of V style of calligraphy structure to the outside tensile force and the compression force that inwards inclines, realize the not equidirectional displacement of pipeline through the hose, and the displacement volume wants high than general single product ability, the displacement space that can guarantee the pipeline. The utility model discloses can be used for being connected of equipment and pipeline, the vibration isolation problem of solution equipment and pipeline.
Description
Technical field
This utility model relates to conduit coupling, particularly to earthquake-resistant structure thing, shock-resistant arrangement and movable v-shaped tube pipe connecting.
Background technology
In the market, the flexible joint installed in tubing is broadly divided into single length travel pipe joint and single lateral displacement pipe joint according to its function, the typical products of length travel is ripple expansion pipe or rubber soft joint, and the typical products of lateral displacement typically uses steel-wire carcass flexible pipe etc..Properties of product require to select according to design, and when the installation requirement of preceding pipeline is the most complicated, pipeline not only needs have length travel requirement, and be also satisfied lateral displacement requirement simultaneously, especially in building structure, when Pipeline Crossing Program Seismic Isolation of Isolation Layer, pipeline needs to not only conform to length travel lateral displacement to be met requirement at same position, and existing product can not have the function of both direction displacement simultaneously.
Thus prior art could be improved and improve.
Utility model content
In place of above-mentioned the deficiencies in the prior art, the purpose of this utility model is to provide earthquake-resistant structure thing, shock-resistant arrangement and movable v-shaped tube pipe connecting, not only has the function of length travel and lateral displacement, and displacement is higher than general single product ability.
In order to achieve the above object, this utility model takes techniques below scheme:
A kind of movable v-shaped tube pipe connecting, including the first elbow, the second elbow, triple section arm, the first flexible pipe and the second flexible pipe;One end of described first elbow is connected by one end of the first flexible pipe and triple section arm, and the other end of triple section arm is connected by one end of the second flexible pipe and the second elbow;The bending angle of described triple section arm is acute angle, and the first elbow, the bending angle of the second elbow are obtuse angle, in V-shape structure after making v-shaped tube pipe connecting connect.
In described movable v-shaped tube pipe connecting, the bending angle of described triple section arm is 60 degree.
In described movable v-shaped tube pipe connecting, described first elbow, the bending angle of the second elbow are 150 degree.
In described movable v-shaped tube pipe connecting, described first flexible pipe, the second flexible pipe length identical.
In described movable v-shaped tube pipe connecting, the other end of described first elbow is bump joint or nipple, and the other end of described second elbow is bump joint or nipple.
In described movable v-shaped tube pipe connecting, described first elbow is provided with the first installation sheet, and described first installation sheet is provided with the first installing hole;Described second elbow is provided with the second installation sheet, and described second installation sheet is provided with the second installing hole.
In described movable v-shaped tube pipe connecting, the bottom of described triple section arm is provided with the 3rd installation sheet, and described 3rd installation sheet is provided with the 3rd installing hole.
A kind of earthquake-resistant structure thing, including being arranged at ground structure trunk, is provided with isolation cushion between ground and structure trunk, also includes underground pipe, wall pipe and the v-shaped tube pipe connecting as described in above-mentioned any one;Described underground pipe is arranged at subsurface and is connected with the first elbow of v-shaped tube pipe connecting, the longitudinal component of described wall pipe is arranged in the body of wall of structure trunk, and the transverse part of described wall pipe is arranged at subsurface and is connected with the triple section arm of v-shaped tube pipe connecting.
A kind of earthquake-resistant structure thing, including being arranged at ground first structure trunk and the second structure trunk, described first structure trunk and the second structure trunk are disposed adjacent, have subsiding crack between the first structure trunk and the second structure trunk, and described earthquake-resistant structure thing also includes the first wall pipe, the second wall pipe and v-shaped tube pipe connecting as above;First elbow of described v-shaped tube pipe connecting connects the first wall pipe, and the triple section arm of described v-shaped tube pipe connecting connects the second wall pipe;Described first wall pipe and v-shaped tube pipe connecting are positioned in the first structure trunk, and described second wall pipe is positioned in the second structure trunk through described subsiding crack.
A kind of shock-resistant arrangement, including shock-resistant arrangement body, the first transverse pipe and the second transverse pipe, also includes the v-shaped tube pipe connecting as described in above-mentioned any one;Described first transverse pipe through shock-resistant arrangement body and is connected with the first elbow of v-shaped tube pipe connecting, and the triple section arm of v-shaped tube pipe connecting connects the second transverse pipe.
Compared to prior art, earthquake-resistant structure thing, shock-resistant arrangement and the movable v-shaped tube pipe connecting that this utility model provides, its movable v-shaped tube pipe connecting, including the first elbow, the second elbow, triple section arm, the first flexible pipe and the second flexible pipe;One end of described first elbow is connected by one end of the first flexible pipe and triple section arm, and the other end of triple section arm is connected by one end of the second flexible pipe and the second elbow;The bending angle of described triple section arm is acute angle, and the first elbow, the bending angle of the second elbow are obtuse angle, in V-shape structure after making v-shaped tube pipe connecting connect.This utility model is by hose connection, and constitute V-shape structure, make movable v-shaped tube pipe connecting not only have the function of length travel and lateral displacement, and displacement can be according to the Design of length of flexible pipe, higher than existing single product ability, moreover it is possible to play antihunt action.
Accompanying drawing explanation
Fig. 1 is the structural representation of the movable v-shaped tube pipe connecting of this utility model.
Fig. 2 is that the length travel of the movable v-shaped tube pipe connecting of this utility model is by schematic diagram during pulling force.
Fig. 3 is the enlarged diagram at the A in Fig. 2.
Fig. 4 is the length travel of this utility model movable v-shaped tube pipe connecting schematic diagram when being stressed.
Fig. 5 is the enlarged diagram at the B in Fig. 4.
Fig. 6 is the lateral displacement schematic diagram of the movable v-shaped tube pipe connecting of this utility model.
Fig. 7 is the enlarged diagram at the C in Fig. 6.
The structural representation of a kind of earthquake-resistant structure thing that Fig. 8 provides for this utility model.
The structural representation of the another kind of earthquake-resistant structure thing that Fig. 9 provides for this utility model.
The structural representation of the shock-resistant arrangement that Figure 10 provides for this utility model.
Detailed description of the invention
This utility model provides earthquake-resistant structure thing, shock-resistant arrangement and movable v-shaped tube pipe connecting, including the first elbow, the second elbow, triple section arm, the first flexible pipe and the second flexible pipe;One end of described first elbow is connected by one end of the first flexible pipe and triple section arm, and the other end of triple section arm is connected by one end of the second flexible pipe and the second elbow;The bending angle of described triple section arm is acute angle, and the first elbow, the bending angle of the second elbow are obtuse angle, in V-shape structure after making v-shaped tube pipe connecting connect.This utility model is by hose connection, and constitute V-shape structure, movable v-shaped tube pipe connecting is made not only to have the function of length travel and lateral displacement, and displacement can be according to the Design of length of flexible pipe, higher than existing single product ability, can also play antihunt action, described first flexible pipe and the second flexible pipe are the service life that metal hose can increase product.
For making the purpose of this utility model, technical scheme and effect clearer, clear and definite, this utility model is further described by the embodiment that develops simultaneously referring to the drawings.Should be appreciated that specific embodiment described herein, only in order to explain this utility model, is not used to limit this utility model.
Referring to Fig. 1, the movable v-shaped tube pipe connecting that this utility model provides, including first elbow the 10, second elbow 20, triple section arm the 30, first flexible pipe 40 and the second flexible pipe 50;One end of described first elbow 10 is connected with one end of triple section arm 30 by the first flexible pipe 40, and the other end of triple section arm 30 is connected with one end of the second elbow 20 by the second flexible pipe 50;The bending angle of described triple section arm 30 is acute angle, and the bending angle of first elbow the 10, second elbow 20 is obtuse angle, in V-shape structure after making v-shaped tube pipe connecting connect.
Concrete, the bending angle of described triple section arm 30 is 60 degree, makes product stretching and bounce increase, and certainly, this utility model can also make other angle into according to specifically used requirement.
The bending angle of described first elbow the 10, second elbow 20 is 150 degree, to ensure that the other end of first elbow the 10, second elbow 20 can connect horizontal pipe.Time specifically used, the bending angle such as triple section arm 30 changes, and the bending angle of described first elbow the 10, second elbow 20 changes accordingly.
Further, the length of described first flexible pipe the 40, second flexible pipe 50 is identical, makes described first elbow the 10, second elbow 20 in the same horizontal line, can connect horizontal pipe, it is also possible to change according to practical situation.
For the ease of being connected with horizontal pipe, the other end of described first elbow 10 is bump joint or nipple 101.Accordingly, the other end of described second elbow 20 is bump joint or nipple 201.Certainly, this utility model needs to use other type of attachment also dependent on installation, and the type of attachment with specific reference to pipeline junction determines.
Please continue to refer to shown in Fig. 1, the bottom of described triple section arm 30 is provided with air vent 301, and this air vent 301 can be used to install air bleeding valve or blowoff valve etc., it is also possible to be used for installing the equipment such as Pressure gauge.
Described first elbow 10 is provided with the first installation sheet 102, and described first installation sheet 102 is provided with the first installing hole 103;Described second elbow 20 is provided with the second installation sheet 202, and described second installation sheet 202 is provided with the second installing hole 203.First installing hole 103 and the second installing hole 203, for after described movable v-shaped tube pipe connecting is displaced to desired location, are used for installing or hang this v-shaped tube pipe connecting.
The bottom of described triple section arm 30 is provided with the 3rd installation sheet 302, and described 3rd installation sheet 302 is provided with the 3rd installing hole 303.When described movable v-shaped tube pipe connecting needs displacement centered by triple section arm 30, described 3rd installing hole 303 can be first passed through and fix described triple section arm 30, it is also possible to after being displaced to desired location, install or hang this v-shaped tube pipe connecting.
In described movable v-shaped tube pipe connecting, described first flexible pipe 40 and the second flexible pipe 50 are metal hose.Metal hose can play antihunt action, moreover it is possible to increases the service life of product, it is also possible to determine hose materials according to specific needs.It addition, this utility model can also change its displacement according to the length of described first flexible pipe 40 and the second flexible pipe 50.
In order to be better understood from this utility model, below in conjunction with Fig. 2 to Fig. 7, movable v-shaped tube pipe connecting stress deformation shape of the present utility model is described in detail:
As shown in Figures 2 and 3, in actual application, when there is length travel in horizontal pipe 60, first flexible pipe 40 of described movable v-shaped tube pipe connecting and the second flexible pipe 50 can stretch laterally, thus can ensure that the displacement space of horizontal pipe 60, the dotted line in Fig. 2, Fig. 3 is the position after tension.
As shown in Figure 4 and Figure 5, in actual application, when there is length travel in horizontal pipe 60, first flexible pipe 40 of described movable v-shaped tube pipe connecting and the second flexible pipe 50 can be to inboard compression, thus can ensure that the displacement space of horizontal pipe 60, the dotted line in Fig. 4, Fig. 5 is the position after pressurized.
As shown in Figure 6 and Figure 7, when pipeline generation lateral displacement, first flexible pipe 40 of described movable v-shaped tube pipe connecting and the second flexible pipe 50 can thus can ensure that the displacement demand of horizontal pipe to two side stretchings, and the dotted line in Fig. 6, Fig. 7 is the position after being turned round.
As shown in Figure 8, this utility model correspondingly provides a kind of earthquake-resistant structure thing, including the structure trunk 60 being arranged on ground 70, is provided with isolation cushion 80 between ground 70 and structure trunk 60.Described earthquake-resistant structure thing also includes underground pipe 90, wall pipe 100 and v-shaped tube pipe connecting;Described underground pipe 90 is arranged at ground and is connected with the first elbow 10 of v-shaped tube pipe connecting for 70 times, the longitudinal component of described wall pipe 100 is arranged in the body of wall of structure trunk 60, and the transverse part of described wall pipe 100 is arranged at ground and is connected with the second elbow 30 of v-shaped tube pipe connecting for 70 times.In the present embodiment, described v-shaped tube pipe connecting horizontal positioned (i.e. along structure trunk laterally disposed), effectively axial to X, Y, Z tri-power can carry out antidetonation, owing to being the most described in detail the structure of this v-shaped tube pipe connecting, here is omitted.
In order to be better understood from the earthquake-resistant structure thing that this utility model provides, below the antidetonation mode of antidetonation building is described in detail:
During earthquake, pipeline passes through isolation cushion 80 to underground structure from surface structures, pipeline can produce X, Y, Z tri-displacement in direction along with rocking of structure, but existing flexible pipe can only tackle single direction, when pipeline produces three direction displacement, pipeline can rupture make electromechanical pipeline be destroyed in interface, elbow.And after applying described v-shaped tube pipe connecting, structure drives piping displacement because earthquake produces three direction displacement, when displacement is delivered to the pipe bent position of described v-shaped tube pipe connecting, v-shaped tube pipe connecting can carry out Three-direction deformation, the pipeline transmission that cannot continue sternward is offset in the displacement making generation herein, thus safeguards the properly functioning of electromechanical pipeline.
This utility model correspondingly provides a kind of earthquake-resistant structure thing, refer to Fig. 9, described earthquake-resistant structure thing includes being arranged at ground first structure trunk 901 and the second structure trunk 902, and described first structure trunk 901 is disposed adjacent with the second structure trunk 902, has subsiding crack 903 between the first structure trunk 901 and the second structure trunk 902.Wherein, described earthquake-resistant structure thing also includes the first wall pipe the 904, second wall pipe 905 and v-shaped tube pipe connecting 906;First elbow of described v-shaped tube pipe connecting 906 connects the first wall pipe 904, and the triple section arm of described v-shaped tube pipe connecting 906 connects the second wall pipe 905;Described first wall pipe 904 and v-shaped tube pipe connecting 906 are positioned in the first structure trunk 901, and described second wall pipe 905 is positioned in the second structure trunk 902 through described subsiding crack 903.In the present embodiment, described v-shaped tube pipe connecting horizontal positioned (i.e. along structure trunk laterally disposed), effectively axial to X, Y, Z tri-power can carry out antidetonation, owing to being the most described in detail the structure of this v-shaped tube pipe connecting, here is omitted.
In order to be better understood from the earthquake-resistant structure thing that this utility model provides, below the antidetonation mode of antidetonation building is described in detail:
During earthquake, during subsiding crack between two building structure of Pipeline Crossing Program, pipeline can be along with the displacement rocking generation tri-directions of X, Y, Z of structure, when two building structure produce the displacement of different directions, pipeline can be made to produce the displacement of different directions, thus cause pipeline can rupture make electromechanical pipeline be destroyed in interface, elbow.And after applying described v-shaped tube pipe connecting, structure drives piping displacement because earthquake produces three direction displacement, when displacement is delivered at described v-shaped tube pipe connecting, v-shaped tube pipe connecting can carry out Three-direction deformation makes the displacement of generation offset the pipeline transmission that cannot continue sternward herein, thus safeguards the properly functioning of electromechanical pipeline.
This utility model correspondingly provides a kind of shock-resistant arrangement, refers to Figure 10, and described shock-resistant arrangement includes shock-resistant arrangement body the 110, first transverse pipe the 120, second transverse pipe 130 and v-shaped tube pipe connecting;Described first transverse pipe 120 through shock-resistant arrangement body 110 and is connected with the first elbow 10 of v-shaped tube pipe connecting, and the second elbow 20 of v-shaped tube pipe connecting connects the second transverse pipe 130, and described second transverse pipe 130 is used for connecting miscellaneous equipment.In the present embodiment, described v-shaped tube pipe connecting horizontal positioned (i.e. along shock-resistant arrangement body 1 laterally disposed), effectively axial to X, Y, Z tri-power can carry out antidetonation, owing to being the most described in detail the structure of this v-shaped tube pipe connecting, here is omitted.
In order to be better understood from the shock-resistant arrangement that this utility model provides, below the antidetonation mode of shock-resistant arrangement is described in detail:
During earthquake, pipeline connecting device, pipeline and equipment can be along with the displacements rocking generation tri-directions of X, Y, Z of structure, when producing the displacement of different directions between two equipment, pipeline can be made to produce the displacement of different directions, thus cause pipeline can rupture make electromechanical pipeline be destroyed in interface, elbow, serious in the case of equipment also can be made to be destroyed.And equipment is in operation and understands self and can produce vibration, is passed on pipeline the most also to make electromechanical pipeline be destroyed when vibration can not get counteracting.And after applying v-shaped tube pipe connecting of the present utility model, the three direction displacement drive pipeline that pipeline and equipment produce because of earthquake and self-operating moves, when displacement is delivered to V-type pipe bent position, V-type bend pipe can carry out Three-direction deformation makes the displacement of generation offset the pipeline transmission that cannot continue sternward herein, thus safeguards the properly functioning of electromechanical pipeline and equipment.
In sum, the movable v-shaped tube pipe connecting that this utility model provides, including the first elbow, the second elbow, triple section arm, the first flexible pipe and the second flexible pipe;One end of described first elbow is connected by one end of the first flexible pipe and triple section arm, and the other end of triple section arm is connected by one end of the second flexible pipe and the second elbow;The bending angle of described triple section arm is acute angle, and the first elbow, the bending angle of the second elbow are obtuse angle, in V-shape structure after making v-shaped tube pipe connecting connect.V-shape structure can increase the tensile force laterally of connector and to inboard compression power, is realized the displacement of pipeline different directions by flexible pipe, and displacement is higher than general single product ability, can guarantee that the displacement space of pipeline.
Additionally, this utility model may be used for the connection of equipment and pipeline, solve the vibration isolation problems of equipment and pipeline.When using in the pipeline connection with pipeline, can solve other length travel that pipeline expands with heat and contract with cold produced length travel and pipeline in use produces, its maximum feature is to solve pipeline necessary lateral and length travel when passing through architectural vibration-insulation layer.
It is understandable that; for those of ordinary skills; in addition equivalent or change can be conceived according to the technical solution of the utility model and utility model thereof, and all these change or replace and all should belong to the scope of the claims appended by this utility model.
Claims (10)
1. a movable v-shaped tube pipe connecting, it is characterised in that include the first elbow, the second elbow, triple section arm, the first flexible pipe and the second flexible pipe;One end of described first elbow is connected by one end of the first flexible pipe and triple section arm, and the other end of triple section arm is connected by one end of the second flexible pipe and the second elbow;The bending angle of described triple section arm is acute angle, and the first elbow, the bending angle of the second elbow are obtuse angle, in V-shape structure after making v-shaped tube pipe connecting connect.
Movable v-shaped tube pipe connecting the most according to claim 1, it is characterised in that the bending angle of described triple section arm is 60 degree.
Movable v-shaped tube pipe connecting the most according to claim 1, it is characterised in that described first elbow, the bending angle of the second elbow are 150 degree.
Movable v-shaped tube pipe connecting the most according to claim 1, it is characterised in that described first flexible pipe, the second flexible pipe length identical.
Movable v-shaped tube pipe connecting the most according to claim 1, it is characterised in that the other end of described first elbow is bump joint or nipple, the other end of described second elbow is bump joint or nipple.
Movable v-shaped tube pipe connecting the most according to claim 1, it is characterised in that described first elbow is provided with the first installation sheet, and described first installation sheet is provided with the first installing hole;Described second elbow is provided with the second installation sheet, and described second installation sheet is provided with the second installing hole.
Movable v-shaped tube pipe connecting the most according to claim 1, it is characterised in that the bottom of described triple section arm is provided with the 3rd installation sheet, and described 3rd installation sheet is provided with the 3rd installing hole.
8. an earthquake-resistant structure thing, including being arranged at ground structure trunk, isolation cushion it is provided with, it is characterised in that described earthquake-resistant structure thing also includes underground pipe, wall pipe and the v-shaped tube pipe connecting as described in claim 1-7 any one between ground and structure trunk;Described underground pipe is arranged at subsurface and is connected with the first elbow of v-shaped tube pipe connecting, the longitudinal component of described wall pipe is arranged in the body of wall of structure trunk, and the transverse part of described wall pipe is arranged at subsurface and is connected with the triple section arm of v-shaped tube pipe connecting.
9. an earthquake-resistant structure thing, including being arranged at ground first structure trunk and the second structure trunk, described first structure trunk and the second structure trunk are disposed adjacent, have subsiding crack between the first structure trunk and the second structure trunk, it is characterized in that, described earthquake-resistant structure thing also includes the first wall pipe, the second wall pipe and the v-shaped tube pipe connecting as described in claim 1-7 any one;First elbow of described v-shaped tube pipe connecting connects the first wall pipe, and the triple section arm of described v-shaped tube pipe connecting connects the second wall pipe;Described first wall pipe and v-shaped tube pipe connecting are positioned in the first structure trunk, and described second wall pipe is positioned in the second structure trunk through described subsiding crack.
10. a shock-resistant arrangement, including shock-resistant arrangement body, the first transverse pipe and the second transverse pipe, it is characterised in that also includes the v-shaped tube pipe connecting as described in claim 1-7 any one;Described first transverse pipe through shock-resistant arrangement body and is connected with the first elbow of v-shaped tube pipe connecting, and the triple section arm of v-shaped tube pipe connecting connects the second transverse pipe.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201620261036.XU CN205560065U (en) | 2016-03-31 | 2016-03-31 | But V type conduit coupling of earthquake -resistant structure thing, antidetonation equipment and displacement |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201620261036.XU CN205560065U (en) | 2016-03-31 | 2016-03-31 | But V type conduit coupling of earthquake -resistant structure thing, antidetonation equipment and displacement |
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| CN205560065U true CN205560065U (en) | 2016-09-07 |
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| CN201620261036.XU Active CN205560065U (en) | 2016-03-31 | 2016-03-31 | But V type conduit coupling of earthquake -resistant structure thing, antidetonation equipment and displacement |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105673969A (en) * | 2016-03-31 | 2016-06-15 | 深圳市置华机电设备有限公司 | Anti-seismic building, anti-seismic equipment and movable V-shaped pipeline connector |
-
2016
- 2016-03-31 CN CN201620261036.XU patent/CN205560065U/en active Active
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105673969A (en) * | 2016-03-31 | 2016-06-15 | 深圳市置华机电设备有限公司 | Anti-seismic building, anti-seismic equipment and movable V-shaped pipeline connector |
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