CN110425341A - A kind of electromechanics pipeline mounting structure and installation method - Google Patents

Abstract

The invention discloses a kind of electromechanical pipeline mounting structure and installation methods, including mounting bracket and at least one pipe-gripping structure being arranged in mounting bracket, the pipe-gripping structure includes the first holding ring, it is adapted with the outer wall of pipeline with for placing for pipeline, the lower surface of first holding ring is vertically arranged with shank；Mounting base, it is fixed on the mounting bracket, the grafting chamber for shank grafting is offered in the mounting base, the two sides of the mounting base are hingedly provided with clamping part, traction rope is connected between two clamping parts, the traction rope is each passed through mounting base, shank, the clamping part be controlled by the pressing action of the first holding ring under the action of traction rope compression clamping on pipeline outer wall；Limiting section is arranged in mounting base for limiting the sliding movement up and down of shank.The present invention has the characteristics that Pipe installing convenience is high.

Description

A kind of electromechanics pipeline mounting structure and installation method

Technical field

The present invention relates to the technical field of electromechanical Pipe installing, in particular to a kind of electromechanical pipeline mounting structure and installation side Method.

Background technique

Electromechanical pipeline includes supplying drainage, fire-fighting spray pipe, air-conditioning supply and exhaust pipe, cooling tube, cable testing bridge, wire casing, work Pipeline adc etc..Need to use bracket in electromechanical pipeline installation, bracket is for electromechanical pipeline to be fixed on the wall, to realize The installation of electromechanical pipeline is fixed.

In electromechanical Pipe installing, it is provided with clip on bracket, electromechanical pipeline is fixed one by one by clip, but When a wide range of electromechanics Pipe installing, staff needs to carry out bolt locking to each clip, but staff is during installation, If two neighboring pipe end, which is not calibrated or calibrated in advance, in advance error, cause the end of two neighboring pipeline without The effective pairing of method adjusts difficulty by the pipeline upper-lower height that clip is installed, so that the installation convenience of electromechanical pipeline is lower, because There are certain improvements for this.

Summary of the invention

In view of the deficiencies of the prior art, the present invention intends to provide a kind of electromechanical pipeline mounting structure, have The characteristics of improving installation convenience.

Above-mentioned technical purpose of the invention has the technical scheme that

A kind of electromechanics pipeline mounting structure, clamps including mounting bracket and at least one pipeline being arranged in mounting bracket Structure, the pipe-gripping structure include:

First holding ring is adapted so that for placing for pipeline, the lower surface of first holding ring is set vertically with the outer wall of pipeline It is equipped with shank；

Mounting base is fixed on the mounting bracket, and the grafting chamber for shank grafting, the mounting base are offered in the mounting base Two sides be hingedly provided with clamping part, be connected with traction rope between two clamping parts, the traction rope be each passed through mounting base, Shank, the clamping part be controlled by the pressing action of the first holding ring under the action of traction rope compression clamping outside pipeline On wall；

Limiting section is arranged in mounting base for limiting the sliding movement up and down of shank.

Through the above technical solutions, staff is during installation, mounting bracket is fixed on to the floor bottom of building first Pipeline is then placed on the first holding ring by portion, and lower pressure pipeline, the first holding ring is moved down to drive clamping part by traction rope Close up to pipeline, and compression clamping, on the outer wall of pipeline, the sliding movement up and down of subsequent limiting section limitation shank can be complete At the installation and fixation of pipeline；

Wherein, between two neighboring pipe end there are when error, by adjusting the upper-lower height position of the first holding ring, and The first holding ring is locked in time by limiting section, effectively increases the convenience of Pipe installing.

Preferably, undertaking ring is provided in the mounting base, the two sides for accepting ring, the undertaking is arranged in the clamping part The radian of ring is identical as the radian of the first holding ring, and described accept offers the embeded slot chimeric for the first holding ring on ring, the One holding ring, which moves down, to be entrenched in embeded slot.

Through the above technical solutions, the first holding ring can be accepted when having the jointing of evagination at pipeline outer wall The position of jointing, and then when moving down pipeline, until the outer wall of pipeline fits with ring is accepted, the first holding ring is pressed into Enter into embeded slot, clamping part is pressed on the outer wall of pipeline, and then ensure that the stability of Pipe installing.

Preferably, the lacing hole passed through for traction rope is offered on the undertaking ring, the two sides of the mounting base offer For the wire rope handling slot that traction rope is up and down.

Through the above technical solutions, the setting of lacing hole and wire rope handling slot, provided for the sliding and moving up and down of traction rope Guide space.

Preferably, the clamping part includes the support plate being hinged in mounting base and is connected by several elastic springs It is used for the second holding ring compatible with pipeline outer wall on the supporting plate, the end of the traction rope to be fixed on the supporting plate.

Through the above technical solutions, the first holding ring is moved down to push traction rope, traction rope drives support plate overturning To be drawn close towards pipeline, until the second holding ring is adjacent on pipeline outer wall and compresses, wherein the second holding ring passes through elastic force bullet Spring connects on the supporting plate, one ensure that the second holding ring is clamped in pipeline outer wall upward stability, and elastic spring provides Buffer function, it is excessive to can be avoided dynamics of second holding ring on pipeline outer wall, causes Pipeline damage；

Wherein, by the setting of above-mentioned elastic spring, when two neighboring pipe end does not have complete pairing, by adjusting first The upper-lower height of holding ring, it is also possible that being protected on the outer wall that the second holding ring is pressed on pipeline under the action of elastic spring While having demonstrate,proved clamping force of second holding ring for pipeline, the adjustment space for pipeline upper and lower position ensure that；

And the setting of above-mentioned elastic spring also has between the second holding ring and support plate in the second holding ring clamping pipe There is mobile space, therefore when building vibrates, pipeline has certain shock resistance and redundancy between the second holding ring Space, avoids the junction of two pipe ends because of rigid vibration force and connective stability declines.

Preferably, torsional spring is installed on the articulated shaft between the support plate and mounting base.

Through the above technical solutions, torsional spring is capable of providing torsion of the support plate far from pipeline side, facilitate support plate outside It opens, to facilitate staff that pipeline is placed on the first holding ring.

Preferably, the limiting section includes the gear being rotatably installed in grafting chamber by shaft and equidistantly distributed Groove on shank to engage with gear is provided with the unidirectional limit for limiting shaft one-directional rotation in the mounting base Component is arranged for providing the elastic component of the upward elastic force of shank in the grafting chamber.

Through the above technical solutions, unidirectional limit component is for limiting shaft one-directional rotation, from there through gradually pushing the One holding ring can limit the first holding ring and move up so that clamping part can gradually compression clamping in pipeline outer wall On, until clamping part clamping pipe, to facilitate clamping part for the pinching action of pipeline；

And gear and groove engagement mode so that the first holding ring move up and down it is all precisely controlled, thus at two When pipeline pairing, the accuracy of two pipeline pairings is higher；

Wherein, the setting of elastic component is capable of providing the upward elastic force of the first holding ring, and unidirectional limit component use is cooperated to improve folder Hold the stability that portion clamps pipeline outer wall；And when building vibrates, pipeline, which has, to be moved up and to moving down Two kinds of dynamic movement trend can provide buffering by elastic component for pipeline when pipeline is moved down；When pipeline moves up When, above-mentioned elastic spring can provide buffering for pipeline, so that pipeline has certain shock resistance between the first holding ring With redundant space, the connective stability decline because of rigid vibration force of the junction of two pipe ends is avoided.

Preferably, the unidirectional limit component includes coaxially being fixed on the ratchet of roller end and being hinged on mounting base On pawl to cooperate with ratchet.

Through the above technical solutions, ratchet has the characteristics that one-directional rotation under the action of pawl.

Preferably, the elastic pressuring plate for compressing pawl end, the other end of the pawl are provided in the mounting base It is extended with reset terminal.

Through the above technical solutions, elastic pressuring plate is used to compress pawl end, to avoid pawl in the effect of non-external force Lower and ratchet is detached from, so that improving pawl contradicts the stability on ratchet, and the setting of reset terminal, is mentioned for staff Additional impetus has been supplied, staff is facilitated to press, so that pawl and ratchet are detached from.

Preferably, the elastic component is gas spring or spring-damper.

Through the above technical solutions, the setting of gas spring and spring-damper, so that moving up and down for the first holding ring is steady It is qualitative good, and when pawl is detached from the upper-lower height position of the first holding ring of ratchet adjustable by staff, for adjusting the One holding ring precision is higher.

In view of the deficiencies of the prior art, the present invention intends to provide a kind of installation of electromechanical pipeline mounting structure Method has the characteristics that improve installation convenience.

Above-mentioned technical purpose of the invention has the technical scheme that

A kind of installation method of electromechanical pipeline mounting structure as described in the above technical scheme, includes the following steps:

Mounting bracket is fixedly mounted on the floor slab bottoms of building by step S100；

Pipeline is placed on the first holding ring by step S200, and downward pressure pipeline, and the first holding ring is moved down through traction rope band Dynamic clamping part closes up to pipeline, and compression clamping is on the outer wall of pipeline；

Step S300 adjusts the position between two neighboring pipe end and is calibrated；

Step S400, limiting section limit the shift action of the first holding ring to realize that clamping part grips pipeline.

In conclusion the present invention having the beneficial effect that in contrast to the prior art

Mounting bracket during installation, is fixed on the floor slab bottoms of building by staff first in the application, then by pipeline It being placed on the first holding ring, lower pressure pipeline, the first holding ring is moved down to drive clamping part to close up to pipeline by traction rope, and On the outer wall of pipeline, the installation of pipeline is can be completed in the sliding movement up and down of subsequent limiting section limitation shank for compression clamping With fixation, and there are when error between two neighboring pipe end, by adjusting the upper-lower height position of the first holding ring, And the first holding ring is locked in time by limiting section, effectively increase the convenience of Pipe installing.

Detailed description of the invention

Fig. 1 is the scheme of installation of technical solution of the present invention；

Fig. 2 is the scheme of installation of pipe-gripping structure in technical solution of the present invention；

Fig. 3 is the first structure diagram of pipe-gripping structure in technical solution of the present invention；

Fig. 4 is the second structural schematic diagram of pipe-gripping structure in technical solution of the present invention；

Fig. 5 is the structural schematic diagram of unidirectional limit component in technical solution of the present invention；

Fig. 6 is the cross-sectional view of mounting base in technical solution of the present invention.

Appended drawing reference: 1, mounting bracket；2, pipe-gripping structure；21, the first holding ring；22, mounting base；23, limiting section； 231, shaft；232, gear；233, groove；234, unidirectional limit component；2341, ratchet；2342, pawl；2343, elasticity pressure Piece；2344, reset terminal；235, elastic component；24, shank；25, grafting chamber；26, ring is accepted；27, embeded slot；28, clamping part； 281, support plate；282, the second holding ring；283, elastic spring；284, torsional spring；29, traction rope；30, lacing hole；31, wire rope handling Slot；32, wire rope handling mouth.

Specific embodiment

Below in conjunction with attached drawing, invention is further described in detail.

Embodiment one

As shown in Figure 1, a kind of electromechanics pipeline mounting structure, is arranged on the floor of building, several electromechanics pipeline mounting structures Interval is equally spaced pipeline is carried out installation fixation.Existing electromechanics pipeline mounting structure pipeline after being fixed to pipeline Position can not be adjusted, therefore not have the case where pairing calibration between two pipe ends, cause two pipe ends solid Fixed difficulty.While pipeline by being guaranteed Pipe installing stability by the application during installation, pipeline is enabled to have up and down The possibility of adjustment, to improve the convenience of Pipe installing.

Specifically, as shown in Fig. 2, the electromechanics pipeline mounting structure includes mounting bracket 1 and is arranged in mounting bracket 1 On at least one pipe-gripping structure 2, equidistant arranged for interval between multiple pipe-gripping structures 2, wherein mounting bracket 1 It is arranged in door shape, mounting bracket 1 is fixed on the floor slab bottoms of building by expansion bolt.Pipe-gripping structure 2 includes the One holding ring 21, mounting base 22 and limiting section 23.

In conjunction with shown in Fig. 3 and Fig. 6, the first holding ring 21 is arranged in semicircular for for pipeline placement, the first holding ring 21 shape is adapted with the outer wall of pipeline, when pipeline is placed on the first holding ring 21, the outer wall of pipeline and the first clamping Ring 21 fits, wherein the lower surface of first holding ring 21 is vertically arranged with shank 24, the side that shank 24 passes through welding Formula is fixed on the lower surface of the first holding ring 21 and is located at the medium position of the first holding ring 21.

Mounting base 22 is fixed in mounting bracket 1, and in one embodiment, mounting base 22 is bolted on installation branch On frame 1, in another embodiment, mounting base 22 is fixed on by welding in mounting bracket 1.Wherein, mounting base 22 On offer grafting chamber 25, grafting chamber 25 is located at the medium position of mounting base 22, grafting chamber 25 be adapted with shank 24 for 24 grafting of shank.

Wherein, the top of mounting base 22, which is fixedly installed, accepts ring 26, accepts ring 26 and is arranged in semicircular, accepts ring 26 Radian is identical as the radian of the first holding ring 21, accepts the embeded slot 27 for offering on ring 26 and being fitted into for the first holding ring 21, embedding It closes slot 27 to be arranged along the radian direction for accepting ring 26, the first holding ring 21 is moved down and can be entrenched in embeded slot 27.

As shown in figure 3, the two sides of mounting base 22 are hingedly provided with clamping part 28, specifically, clamping part 28 is hingedly arranged At the both ends for accepting ring 26, it is connected with traction rope 29 between two clamping parts 28, traction rope 29 is each passed through mounting base 22, grafting Bar 24 is specifically accepted and offers the lacing hole 30 passed through for traction rope 29 on ring 26, and the two sides of mounting base 22 are offered for leading The up and down wire rope handling slot 31 of messenger 29, the end of shank 24, which is run through, the wire rope handling mouth 32 passed through for traction rope 29, this implementation In example, traction rope 29 is wirerope.Wherein, clamping part 28 is controlled by the pressing action of the first holding ring 21 in traction rope 29 Lower compression clamping is acted on pipeline outer wall.

Specifically, clamping part 28 includes support plate 281 and the second holding ring 282.Support plate 281 is hinged in mounting base 22 Undertaking ring 26 on, the second holding ring 282 is connected in support plate 281 by several elastic springs 283, the second holding ring 282 Towards 21 side of the first holding ring, several elastic springs 283 are evenly arranged between the second holding ring 282 and support plate 281, elastic force bullet One end of spring 283 is fixed on the second holding ring 282, and the other end of elastic spring 283 is fixed in support plate 281.Second folder Support ring 282 is arranged in semicircular, and the radian of the second holding ring 282 is adapted with pipeline outer wall.Wherein, the end of the traction rope 29 Portion is fixed on the upper of support plate 281, and the tie point of traction rope 29 and support plate 281 is close to the articulated shaft side of support plate 281.Branch Torsional spring 284 is installed, one end of torsional spring 284 is connected in support plate 281, the other end of torsional spring 284 on the articulated shaft of fagging 281 It is connected to and accepts on ring 26, torsional spring 284 is for providing torsion of the support plate 281 far from pipeline side.

In conjunction with shown in Fig. 3 and Fig. 4, limiting section 23 is arranged in mounting base 22 dynamic for limiting the sliding up and down of shank 24 Make.During installation, pipeline is placed on the first holding ring 21 by staff in the application as a result, descends pressure pipeline at this time, and first Holding ring 21 is moved down to drive clamping part 28 to close up to pipeline by traction rope 29, until clamping part 28 is pressed on the outer wall of pipeline On, subsequent limiting section 23 limits the sliding movement up and down of shank 24, and the installation and fixation of pipeline can be completed.

Wherein, pass through the upper-lower height of the first holding ring 21 of adjusting there are when error between two neighboring pipe end Position, and the first holding ring 21 is locked in time by limiting section 23, effectively increase the convenience of Pipe installing.

In the application, limiting section 23 includes the gear 232 being rotatably installed in grafting chamber 25 by shaft 231 and waits The groove 233 that spacing is distributed on shank 24 to engage with gear 232, concentric setting between gear 232 and shaft 231, Gear 232 is arranged in shaft 231 by way of flat key or spline.The end of shaft 231 is pierced by grafting chamber 25 and protrudes from peace Fill the surface of seat 22, wherein be provided with the unidirectional limit component 234 for limiting the one-directional rotation of shaft 231 in mounting base 22, insert It connects in chamber 25 and is arranged for providing the elastic component 235 of the upward elastic force of shank 24.

In one embodiment, in conjunction with shown in Fig. 3 and Fig. 5, unidirectional limit component 234 includes coaxially being fixed on shaft 231 The ratchet 2341 of end and it is hinged on pawl 2342 in mounting base 22 to cooperate with ratchet 2341.Ratchet 2341 passes through flat The mode of key or spline is arranged in shaft 231, and the elastic pressuring plate for compressing 2342 end of pawl is provided in mounting base 22 2343, the other end of pawl 2342 is extended with reset terminal 2344.The setting of elastic pressuring plate 2343 avoids pawl 2342 in non-external force Under the action of be detached from ratchet 2341, improve pawl 2342 and contradict stability on ratchet 2341.Reset terminal 2344 is set It sets, additional impetus is provided for staff, staff is facilitated to press, so that pawl 2342 and ratchet 2341 are detached from.

In one embodiment, elastic component 235 is gas spring, and in another embodiment, elastic component 235 is spring damping Device.

In the application, pipeline is placed on the first holding ring 21, gradually pushes the first holding ring 21, so that support plate 281 Overturning, so that the second holding ring 282 can gradually compression clamping be on pipeline outer wall, until the second holding ring 282 clamps Pipeline；Wherein, the mode that groove 233 engages on gear 232 and shank 24, so that the first holding ring 21 is moved up and down and all obtained Accurate control, thus when adjusting two pipeline pairings, the accuracy and convenience of two pipeline pairings are higher.Wherein, elastic The setting of part 235 is capable of providing the upward elastic force of the first holding ring 21, and unidirectional 234 use of limit component is cooperated to improve the second folder The stability that support ring 282 clamps pipeline outer wall.

When the floor of building vibrates, pipeline has the two kinds of movement tendencies for moving up and moving down, when Pipeline moves down, and buffering can be provided for pipeline by elastic component 235, and clamp pipe not yet in the second holding ring 282 When road, pipeline and the first holding ring 21 with downward vibration force will be moved down persistently, unidirectional first clamping of the limitation of limit component 234 Ring 21 moves up, and thus persistently drives 282 clamping pipe of the second holding ring, so that the second holding ring 282 can be under vibration It keeps avoiding pipeline from loosening in the clamping action of the first holding ring 21 and the second holding ring 282 the enough fastening forces of pipeline.

When pipeline moves up, the elastic spring 283 between the second holding ring 282 and support plate 281 can be pipeline The effect of buffering, damping is provided, so that pipeline has certain shock resistance and redundant space between the first holding ring 21, is kept away Exempt from junction connective stability decline because of rigid vibration force of two pipe ends.

Embodiment two

A kind of installation method of electromechanical pipeline mounting structure as described in the above technical scheme, includes the following steps:

Mounting bracket 1 is fixedly mounted on the floor slab bottoms of building by step S100；

Pipeline is placed on the first holding ring 21 by step S200, and downward pressure pipeline, and the first holding ring 21 is moved down to pass through traction 29 drive clamping part 28 of rope closes up to pipeline, and compression clamping is on the outer wall of pipeline；

Step S300 adjusts the position between two neighboring pipe end and is calibrated；

Step S400, limiting section 23 limit the shift action of the first holding ring 21 to realize that clamping part 28 is solid to the clamping of pipeline It is fixed.

Mounting bracket 1 during installation, is fixed on the floor slab bottoms of building by staff first in the application, then will Pipeline is placed on the first holding ring 21, lower pressure pipeline, and the first holding ring 21 is moved down to drive clamping part 28 by traction rope 29 Close up to pipeline, and compression clamping, on the outer wall of pipeline, subsequent limiting section 23 limits the sliding movement up and down of shank 24, i.e., The installation and fixation of achievable pipeline, and clamped there are when error by adjusting first between two neighboring pipe end The upper-lower height position of ring 21, and the first holding ring 21 is locked in time by limiting section 23, effectively increase pipe The convenience of road installation.

The above is only exemplary embodiment of the invention, protection scope and is not intended to limit the present invention, this hair Bright protection scope is determined by the attached claims.

Claims (10)

1. a kind of electromechanics pipeline mounting structure, including mounting bracket (1) and be arranged on mounting bracket (1) at least one Pipe-gripping structure (2), which is characterized in that the pipe-gripping structure (2) includes:

First holding ring (21) is adapted for for pipeline placement, the following table of first holding ring (21) with the outer wall of pipeline Face is vertically arranged with shank (24)；

Mounting base (22) is fixed on mounting bracket (1), and inserting for shank (24) grafting is offered on the mounting base (22) It connects chamber (25), the two sides of the mounting base (22) are hingedly provided with clamping part (28), are connected between two clamping parts (28) Traction rope (29), the traction rope (29) are each passed through mounting base (22), shank (24), and the clamping part (28) is controlled by The pressing action of one holding ring (21) under the action of traction rope (29) compression clamping on pipeline outer wall；

The sliding movement up and down for limiting shank (24) is arranged on mounting base (22) in limiting section (23).

2. a kind of electromechanical pipeline mounting structure according to claim 1, which is characterized in that be arranged on the mounting base (22) Have undertaking ring (26), clamping part (28) setting is in the two sides for accepting ring (26), the radian and first for accepting ring (26) The radian of holding ring (21) is identical, described to accept the embeded slot (27) for offering on ring (26) and being fitted into for the first holding ring (21), First holding ring (21), which moves down, can be entrenched in embeded slot (27).

3. a kind of electromechanical pipeline mounting structure according to claim 2, which is characterized in that opened up on the undertaking ring (26) There is the lacing hole (30) passed through for traction rope (29), the two sides of the mounting base (22) offer up and down for traction rope (29) Wire rope handling slot (31).

4. a kind of electromechanical pipeline mounting structure according to claim 1, which is characterized in that the clamping part (28) includes hinge It connects and is used in the support plate (281) on mounting base (22) and being connected on support plate (281) by several elastic springs (283) It is fixed on support plate (281) in the end of the second holding ring (282) compatible with pipeline outer wall, the traction rope (29).

5. a kind of electromechanical pipeline mounting structure according to claim 4, which is characterized in that the support plate (281) and peace Torsional spring (284) are installed on articulated shaft between dress seat (22).

6. a kind of electromechanical pipeline mounting structure according to claim 1, which is characterized in that the limiting section (23) includes logical Gear (232) and equidistantly distributed that shaft (231) is rotatably installed in grafting chamber (25) are crossed on shank (24) with The groove (233) of gear (232) engagement, the list for limiting shaft (231) one-directional rotation is provided on the mounting base (22) To limit component (234), setting is for providing the elastic component (235) of the upward elastic force of shank (24) in the grafting chamber (25).

7. a kind of electromechanical pipeline mounting structure according to claim 6, which is characterized in that the unidirectional limit component (234) include coaxially be fixed on the ratchet (2341) of shaft (231) end and be hinged on mounting base (22) with ratchet (2341) pawl (2342) cooperated.

8. a kind of electromechanical pipeline mounting structure according to claim 7, which is characterized in that be arranged on the mounting base (22) There is the elastic pressuring plate (2343) for compressing pawl (2342) end, the other end of the pawl (2342) is extended with reset terminal (2344)。

9. a kind of electromechanical pipeline mounting structure according to claim 6, which is characterized in that the elastic component (235) is gas Spring or spring-damper.

10. a kind of installation method of the electromechanical pipeline mounting structure as described in claim 1 ~ 9 any one, which is characterized in that Include the following steps:

Mounting bracket (1) is fixedly mounted on the floor slab bottoms of building by step S100；

Pipeline is placed on the first holding ring (21) by step S200, and downward pressure pipeline, and the first holding ring (21) is moved down to pass through Traction rope (29) drives clamping part (28) Xiang Guandao to close up, and compression clamping is on the outer wall of pipeline；

Step S300 adjusts the position between two neighboring pipe end and is calibrated；

Step S400, the shift action of limiting section (23) limitation the first holding ring (21) is to realize clamping part (28) to pipeline It grips.