CN112607651A - Automatic plastics tubular product lifting erection bracing frame of adjusting well - Google Patents

Abstract

The invention discloses a lifting and mounting support frame for a plastic pipe capable of aligning automatically, which comprises a movable base, wherein a movable roller cavity with a downward opening is symmetrically and respectively arranged in the movable base in a left-right mode, a movable roller shaft is respectively and rotatably arranged between the front wall and the rear wall of the movable roller cavity on the left side and the right side, a movable roller is fixedly arranged on the outer circular surface of the movable roller shaft, a left lifting guide pillar is respectively and fixedly arranged on the left side and the front side of the upper end surface of the movable base in a front-back mode, and a right lifting guide pillar is respectively and fixedly arranged on the upper end surface of the movable base and on the right side of the left lifting guide pillar in a front-back mode, make things convenient for the workman to install, avoid because the installation problem that the skew caused.

Description

Automatic plastics tubular product lifting erection bracing frame of adjusting well

Technical Field

The invention relates to the field of plastic pipes, in particular to an automatic alignment plastic pipe lifting installation support frame.

Background

In the production life, can meet the condition of installation plastics tubular product, some plastic conduit need upwards lift to install after the take the altitude, and generally all through the mode of lifting by crane with the plastic conduit lifting, because the relation of gravity, the plastic conduit can take place bending deformation, in addition, need will treat the pipeline of installation and the pipeline of having fixed dock in the installation, because in the high altitude, the position of installer adjustment pipeline is more difficult, leads to the installation skew, influences the use of pipeline. The invention discloses an automatic alignment plastic pipe lifting installation support frame, which can solve the problems.

Disclosure of Invention

In order to solve the problems, the embodiment designs an automatic alignment plastic pipe lifting and mounting support frame, which comprises a moving base, wherein a moving roller cavity with a downward opening is symmetrically arranged in the moving base left and right, a moving roller shaft is respectively and rotatably arranged between the front wall and the rear wall of the moving roller cavity on the left side and the right side, a moving roller is fixedly arranged on the outer circular surface of the moving roller shaft, left lifting guide columns are respectively and symmetrically and fixedly arranged on the left side and the front side of the upper end surface of the moving base front and back, right lifting guide columns are respectively and symmetrically and fixedly arranged on the upper end surface of the moving base and on the right side of the left lifting guide columns front and back, lifting blocks are respectively arranged on the outer sides of the right lifting guide columns and the outer sides of the left lifting guide columns in a vertical sliding manner, and lifting support tables are respectively arranged on the upper side of the moving base and between the left lifting, an outward-opening adjusting moving cavity is symmetrically and respectively arranged in the lifting support platform in a front-back manner, the lifting block and the adjusting moving cavity are connected in a front-back sliding manner, a pipeline placing groove with an upward opening is arranged in the lifting support platform, a gear cavity is arranged in the lifting block on the left back side, a gear shaft is rotatably arranged between the left wall and the right wall of the gear cavity, a lifting gear is fixedly arranged on the outer circular surface of the gear shaft, a lifting rack meshed with the lifting gear is fixedly arranged in the front end surface of the left lifting guide pillar on the back side, an aligning block is fixedly arranged on the left end surface of the lifting support platform, an upward-opening top block cavity is arranged in the aligning block, a top block is arranged in the top block cavity in a vertically sliding manner, a moving contact is fixedly arranged on the inner back side of the lower end surface of the top block, a fixed contact right opposite to the moving contact is fixedly arranged on the inner back side of the lower wall of the top, rotate to be equipped with between the wall of adjusting well before the chamber and adjust the pivot well, it has the turning block to adjust well the symmetry difference key-type connection around on the outer disc of pivot well, adjust well the outer disc of pivot and both sides in the front and back the key-type connection has the centre block between the turning block, it is equipped with the draw-in groove to adjust the symmetry respectively around the chamber right wall, the fixed right-hand member that is equipped with in the outer disc right side of turning block extends to splint in the draw-in groove, to adjusting chamber right wall and both sides in the front and back the intercommunication is equipped with the skew detection chamber between the draw-in groove, the skew detects that the intracavity can horizontal slip be equipped with the skew and triggers the slider, skew triggers slider right-hand member internal fixation and is equipped with and removes the trigger plate.

Preferably, a driving shaft is arranged in the front wall of the gear cavity in a rotating mode, a driving bevel gear is fixedly arranged on the rear end face of the driving shaft, a transmission bevel gear meshed with the driving bevel gear is fixedly arranged on the left side of the lifting gear on the outer circular surface of the gear shaft, a transmission moving cavity is formed in the lifting block on the left rear side and communicated with the adjustment moving cavity, a spline power shaft is arranged in the front wall of the adjustment moving cavity on the left rear side in a rotating mode, the front end of the driving shaft extends into the transmission moving cavity and is connected with the spline power shaft through a spline, an adjustment moving screw rod is arranged in the rear wall of the adjustment moving cavity on the left front side in a rotating mode, and the adjustment moving screw rod is connected.

Preferably, a power driving mechanism is fixedly arranged between the adjusting and moving cavity on the left side and the front side and the rear side in the lifting support platform, the front end of the spline power shaft is in power connection with the rear end face of the power driving mechanism, and the rear end of the adjusting and moving screw rod is in power connection with the front end face of the power driving mechanism.

Preferably, the front wall and the rear wall of the aligning cavity are symmetrically and respectively communicated with a locking tip cavity, a locking tip is arranged in the locking tip cavity in a left-right sliding mode, the front side and the rear side of the locking tip cavity are provided with a locking groove with an opening facing left in the outer circular surface of the rotating block, and the right end of the locking tip can slide in and out of the locking groove.

Preferably, the alignment block is internally provided with a control lifting cavity at the lower side of the top block cavity, the control lifting cavity is internally provided with a control lifting plate capable of sliding up and down, the upper end face of the control lifting plate is fixedly connected with a lifting connecting rod between the lower end faces of the top block, the lower end face of the top block is fixedly connected with a reset spring between the lower wall of the top block cavity and the outer side of the lifting connecting rod, a connecting rod cavity is communicated between the lower wall of the locking pin cavity and the upper wall of the control lifting cavity, and a detection connecting rod is hinged between the lower end face of the locking pin and the upper end face of the control lifting plate.

Preferably, a fixing plate is fixedly arranged on the outer circular surface of the alignment rotating shaft and on one side of the rotating blocks on the front side and the rear side, which is far away from the central block, respectively, a torsion spring is fixedly connected between the rear end surface of the fixing plate on the rear side and the rear wall of the alignment cavity, a clamping spring is fixedly connected between one end surface of the fixed plate close to the central block and one end surface of the rotating block far away from the central block, a central spring is fixedly connected between one end surface of the rotating block close to the central block and the central block, an annular center block rotating cavity which is opened outwards is arranged in the center block, a center rotating ring is rotatably arranged in the center block rotating cavity, an offset detection rod is arranged in the offset detection cavity and can slide back and forth on the left side of the offset trigger slide block, the left end of the deviation detection rod is fixedly connected with the outer circular surface of the central rotating ring, and a deviation detection connecting rod is hinged between the right end surface of the deviation detection rod and the left end surface of the deviation trigger sliding block.

The invention has the beneficial effects that: according to the invention, the plastic pipe to be installed can be lifted to a high position through the support, so that the pipe is prevented from bending and deforming in the lifting process, and then the lifting is automatically stopped when the pipe is lifted to the same height as the fixed pipeline, and the butt joint correction of the installation pipeline and the fixed pipeline is carried out, so that the installation is convenient for workers, and the installation problem caused by deviation is avoided.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the structure a-a in fig. 1.

Fig. 3 is an enlarged schematic view of B in fig. 1.

Fig. 4 is a schematic diagram of the structure C-C in fig. 3.

Fig. 5 is a schematic diagram of the structure D-D in fig. 3.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a lifting mounting support frame for a plastic pipe capable of automatically aligning, which comprises a movable base 11, wherein a movable roller cavity 12 with a downward opening is symmetrically and respectively arranged in the movable base 11 in a left-right mode, a movable roller shaft 13 is respectively and rotatably arranged between the front wall and the rear wall of the movable roller cavity 12 on the left side and the right side, a movable roller 14 is fixedly arranged on the outer circular surface of the movable roller shaft 13, left lifting guide pillars 63 are respectively and fixedly arranged on the left side of the upper end surface of the movable base 11 in a front-back mode, right lifting guide pillars 15 are respectively and fixedly arranged on the upper end surface of the movable base 11 and on the right side of the left lifting guide pillars 63 in a front-back mode, lifting blocks 18 are respectively arranged on the outer sides of the right lifting guide pillars 15 and the outer sides of the left lifting guide pillars 63 in a front-back mode and can slide up and down, lifting support, an adjusting moving cavity 19 with an outward opening is symmetrically and respectively arranged in the lifting support platform 16 in a front-back manner, the lifting block 18 is connected with the adjusting moving cavity 19 in a front-back sliding manner, a pipeline placing groove 17 with an upward opening is arranged in the lifting support platform 16, a gear cavity 26 is arranged in the lifting block 18 at the left back side, a gear shaft 27 is rotatably arranged between the left wall and the right wall of the gear cavity 26, a lifting gear 28 is fixedly arranged on the outer circular surface of the gear shaft 27, a lifting rack 25 meshed with the lifting gear 28 is fixedly arranged in the front end surface of the left lifting guide pillar 63 at the back side, an alignment block 31 is fixedly arranged on the left end surface of the lifting support platform 16, an ejecting block cavity 44 with an upward opening is arranged in the alignment block 31, an ejecting block 45 is arranged in the ejecting block cavity 44 in a vertical sliding manner, a moving contact 61 is fixedly arranged on the back side in the lower end surface of the ejecting block 45, a fixed contact 62 opposite to the moving contact 61, an upward-opening U-shaped aligning cavity 32 is arranged in the aligning block 31 and at the right side of the top block cavity 44, an alignment rotating shaft 39 is rotatably arranged between the front wall and the rear wall of the alignment cavity 32, rotating blocks 57 are respectively and symmetrically connected with the front and the rear of the outer circular surface of the alignment rotating shaft 39 in a key way, a central block 40 is connected with the outer circular surface of the alignment rotating shaft 39 and the rotating blocks 57 at the front side and the rear side through keys, the right wall of the aligning cavity 32 is symmetrically and respectively communicated with a clamping groove 52 in the front and back direction, the right side of the outer circular surface of the rotating block 57 is fixedly provided with a clamping plate 53 the right end of which extends into the clamping groove 52, an offset detection cavity 33 is arranged on the right wall of the alignment cavity 32 and communicated between the clamping grooves 52 on the front side and the rear side, an offset trigger slide block 36 is arranged in the offset detection cavity 33 and can slide left and right, a movable trigger plate 38 is fixedly arranged in the right end face of the offset trigger slide block 36, a fixed trigger plate 37 opposite to the movable trigger plate 38 is fixedly arranged in the right wall of the deviation detection cavity 33.

Beneficially, a driving shaft 24 is rotatably disposed in the front wall of the gear cavity 26, a driving bevel gear 30 is fixedly disposed on the rear end surface of the driving shaft 24, a driving bevel gear 29 engaged with the driving bevel gear 30 is fixedly disposed on the left side of the lifting gear 28 and on the outer circumferential surface of the gear shaft 27, a transmission moving cavity 23 is disposed in the left rear side of the lifting block 18 and communicated with the adjusting moving cavity 19, a spline power shaft 22 is rotatably disposed in the front wall of the left rear side of the adjusting moving cavity 19, the front end of the driving shaft 24 extends into the transmission moving cavity 23 and is in spline connection with the spline power shaft 22, an adjusting moving screw 20 is rotatably disposed in the rear wall of the left front side of the adjusting moving cavity 19, and the adjusting moving screw 20 is in threaded connection with the left front side of the lifting block 18.

Advantageously, a power driving mechanism 21 is fixedly arranged between the adjusting and moving cavity 19 on the left side and the front and rear sides in the lifting support platform 16, the front end of the spline power shaft 22 is dynamically connected to the rear end face of the power driving mechanism 21, and the rear end of the adjusting and moving screw 20 is dynamically connected to the front end face of the power driving mechanism 21.

Beneficially, the left wall of the aligning cavity 32 is symmetrically provided with a locking pin cavity 50 in a front-back manner, the locking pin cavity 50 is provided with a locking pin 43 capable of sliding left and right, a locking groove 58 with a left opening is provided in the outer circular surface of the turning block 57 on the front and back sides, and the right end of the locking pin 43 can slide in and out of the locking groove 58.

Beneficially, adjust in the piece 31 well and be equipped with control lift chamber 46 under kicking block chamber 44, gliding control lifter plate 47 about the control lift chamber 46 is equipped with in internal energy, control lifter plate 47 up end with fixedly connected with lift connecting rod 48 between the terminal surface under the kicking block 45, terminal surface under the kicking block 45 with between the kicking block chamber 44 lower wall and between the lift connecting rod 48 outside fixedly connected with reset spring 49, the locking tip chamber 50 lower wall with the intercommunication is equipped with connecting rod chamber 59 between the control lift chamber 46 upper wall, terminal surface under the locking tip 43 with hinged joint has detection connecting rod 60 between the control lifter plate 47 upper end.

Advantageously, a fixing plate 55 is fixedly arranged on the outer circumferential surface of the alignment rotating shaft 39 and on the front and rear sides of the rotating block 57 far from the center block 40, a torsion spring 64 is fixedly connected between the rear end surface of the rear fixing plate 55 and the rear wall of the alignment cavity 32, a clamping spring 54 is fixedly connected between the end surface of the fixing plate 55 close to the center block 40 and the end surface of the rotating block 57 far from the center block 40, a center spring 56 is fixedly connected between the end surface of the rotating block 57 close to the center block 40 and the center block 40, an annular center block rotating cavity 51 with an outward opening is arranged in the center block 40, a center rotating ring 41 is rotatably arranged in the center block rotating cavity 51, an offset detecting rod 34 is arranged in the offset detecting cavity 33 and on the left side of the offset triggering slide block 36 in a front-back sliding manner, and the left end of the offset detecting rod 34 is fixedly connected with the outer circumferential surface of the center rotating ring 41, an offset detection connecting rod 35 is hinged between the right end face of the offset detection rod 34 and the left end face of the offset trigger slider 36.

The use steps herein are described in detail below with reference to fig. 1-5:

in the initial state, the lifting support platform 16 is at the lower limit position, the top block 45 is at the upper limit position, the control lifting plate 47 is at the upper limit position, the offset trigger slider 36 is at the right limit position, the right end of the locking pin 43 is clamped into the locking groove 58, the clamping plate 53 is positioned in the clamping groove 52, the torsion spring 64 is in a screwing state, the central spring 56 is in a stretching state, and the clamping spring 54 is in a compressing state.

When in operation, a pipeline to be installed is placed in the pipeline placing groove 17 and then pushed to the position below the installation position, the movable roller 14 is driven to rotate and the movable roller shaft 13 is driven to rotate during the pushing process, then the power driving mechanism 21 is started, the spline power shaft 22 is driven to rotate and the driving shaft 24 is driven to rotate through power connection, the driving bevel gear 30 is driven to rotate and the transmission bevel gear 29 is driven to rotate through gear meshing, the gear shaft 27 is driven to rotate and the lifting gear 28 is driven to rotate, the lifting gear 28 moves upwards through gear rack meshing with the gear cavity 26 and drives the gear shaft 27 to move upwards, the lifting block 18 on the left rear side is driven to move upwards and drive the lifting support table 16 to move upwards, the lifting block 18 on the left front side is driven to move upwards, and then the pipeline in the pipeline placing groove 17 is driven to move upwards, the lifting support table 16 moves upwards and drives the alignment block 31 to move upwards and drive the jacking block 45 to move upwards, when the upper end surface of the top block 45 abuts against the outer circular surface of the fixed pipeline, the top block 45 moves downwards relative to the alignment block 31 and drives the lifting connecting rod 48 to move downwards relative to the alignment block 31 and drive the control lifting plate 47 to move downwards, so as to compress the return spring 49 and further drive the movable contact 61 to move downwards, when the movable contact 61 moves downwards until the lower end surface contacts with the upper end surface of the fixed contact 62, the power driving mechanism 21 stops driving the spline power shaft 22 to rotate through power connection, so that the lifting support platform 16 stops moving upwards, and simultaneously the lifting plate 47 is controlled to move downwards and drives the detection connecting rod 60 to swing through hinge connection and drive the locking pin 43 to move leftwards through hinge connection, so that the right end of the locking pin 43 is separated from the locking groove 58, and at this time, the rear side fixing plate 55 is driven to rotate and the alignment rotating shaft 39 is driven to rotate ninety degrees, and then the center block 40 is driven to rotate, and then the front side rotating block 57 is driven to rotate and the front and rear side clamping plates 53 are driven to swing ninety degrees upwards, and the front and rear side rotating blocks 57 are driven to approach each other and the front and rear side clamping plates 53 are driven to approach each other directly to abut against the pipeline to be connected due to the elastic force of the clamping spring 54, at this time, the distance between the front and rear side rotating blocks 57 changes, the center block 40 is driven to move back and forth due to the elastic force of the center spring 56 until the elastic force of the front and rear side center spring 56 reaches a balanced state again, at this time, the center block 40 is located at the middle position between the front and rear side rotating blocks 57 and drives the deviation detecting rod 34 to move left and right, and then the deviation triggering slide block 36 is driven to move left through the hinge connection of the deviation detecting connecting rod 35 and drives the moving, thereby sending a signal to the power driving mechanism 21, starting the power driving mechanism 21, driving the adjusting movable screw 20 to rotate through power connection and driving the lifting support platform 16 to move back and forth through threaded connection, further driving the pipeline in the pipeline placing groove 17 to move back and forth, when the pipeline in the pipeline placing groove 17 moves back and forth to be aligned with the fixed pipeline, the central block 40 moves back and forth to the middle position between the front and rear side fixing plates 55, further driving the deviation detecting rod 34 to move back and forth to the middle position between the front and rear side fixing plates 55, then driving the deviation triggering slide block 36 to move right to the right limit position through the swinging of the deviation detecting connecting rod 35, at this moment, the movable triggering plate 38 contacts with the fixed triggering plate 37, the power driving mechanism 21 stops driving the adjusting movable screw 20 to rotate through power connection, finishing the correction of the butt joint of the, after the installation is completed, the power driving mechanism 21 drives the spline power shaft 22 to rotate through power connection, and drives the lifting support table 16 to move downwards to the lower limit position through the transmission, at the moment, the jacking block 45 is driven to move upwards due to the elastic action of the return spring 49, and the locking pin 43 is driven to move rightwards through the transmission, at the moment, the front and rear side clamping plates 53 are manually pulled far and rotate rightwards to ninety degrees to the clamping groove 52, so that the torsion spring 64 is driven to twist, then the right end of the locking pin 43 slides into the locking groove 58, the clamping plates 53 are locked, and the use for the next time is facilitated.

The invention has the beneficial effects that: according to the invention, the plastic pipe to be installed can be lifted to a high position through the support, so that the pipe is prevented from bending and deforming in the lifting process, and then the lifting is automatically stopped when the pipe is lifted to the same height as the fixed pipeline, and the butt joint correction of the installation pipeline and the fixed pipeline is carried out, so that the installation is convenient for workers, and the installation problem caused by deviation is avoided.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides an automatic plastics tubular product lifting erection bracing frame well, includes the removal base, its characterized in that: a moving roller cavity with a downward opening is symmetrically and respectively arranged in the moving base from left to right, a moving roller shaft is respectively and rotatably arranged between the front wall and the rear wall of the moving roller cavity on the left side and the right side, a moving roller is fixedly arranged on the outer circular surface of the moving roller shaft, a left lifting guide pillar is symmetrically and respectively fixedly arranged on the left side and the front side of the upper end surface of the moving base from front to back, a right lifting guide pillar is respectively and fixedly arranged on the upper end surface of the moving base from front to back on the right side of the left lifting guide pillar, lifting blocks are respectively arranged on the outer side of the right lifting guide pillar and the outer side of the left lifting guide pillar in a vertically sliding manner, a lifting support table is respectively arranged on the upper side of the moving base from front to back and between the left lifting guide pillar and the right lifting guide pillar on the front side and the rear side, a pipeline placing groove with an upward opening is arranged in the lifting support platform, a gear cavity is arranged in the lifting block at the left rear side, a gear shaft is rotatably arranged between the left wall and the right wall of the gear cavity, a lifting gear is fixedly arranged on the outer circular surface of the gear shaft, a lifting rack meshed with the lifting gear is fixedly arranged in the front end surface of the left lifting guide pillar at the rear side, an alignment block is fixedly arranged on the left end surface of the lifting support platform, an ejecting block cavity with an upward opening is arranged in the alignment block, an ejecting block is arranged in the ejecting block cavity in a vertically sliding manner, a movable contact is fixedly arranged at the inner rear side of the lower end surface of the ejecting block, a fixed contact right opposite to the movable contact is fixedly arranged at the inner rear side of the lower wall of the ejecting block cavity, a U-shaped alignment cavity with an upward opening is arranged in the alignment block cavity and at the right side of the ejecting block cavity, an alignment rotating shaft, just adjust the outer disc of pivot well and both sides in the front and back the key-type connection has the centre block between the turning block, to just the symmetry respectively the intercommunication be equipped with the draw-in groove around the chamber right wall, the fixed right-hand member that is equipped with in the outer disc right side of turning block extends to splint in the draw-in groove, just to just chamber right wall and both sides in the front and back the intercommunication is equipped with the skew and detects the chamber between the draw-in groove, the skew detects intracavity ability horizontal slip be equipped with the skew and triggers the slider, the skew triggers slider right-hand member face internal fixation and is equipped with the removal and triggers the board, the skew detect chamber right wall internal fixation be equipped with.

2. A self-aligning plastic tubing lift mounting support frame as claimed in claim 1 wherein: the adjustable bevel gear is characterized in that a driving shaft is arranged in the front wall of the gear cavity in a rotating mode, a driving bevel gear is fixedly arranged on the rear end face of the driving shaft, a transmission bevel gear meshed with the driving bevel gear is fixedly arranged on the left side of the lifting gear on the outer circular surface of the gear shaft, the left rear side of the lifting gear is communicated with the lifting block, a transmission moving cavity is arranged in the adjustment moving cavity, a spline power shaft is arranged in the front wall of the adjustment moving cavity on the left rear side of the lifting gear in a rotating mode, the front end of the driving shaft extends into the transmission moving cavity and is connected with the spline power shaft through splines, an adjustment moving screw rod is arranged in the rear wall of the adjustment moving cavity on.

3. A self-aligning plastic tubing lift mounting support frame as claimed in claim 2 wherein: the adjusting and moving mechanism is characterized in that a power driving mechanism is fixedly arranged between the adjusting and moving cavity on the left side and the front side and the rear side in the lifting support platform, the front end of the spline power shaft is in power connection with the rear end face of the power driving mechanism, and the rear end of the adjusting and moving screw is in power connection with the front end face of the power driving mechanism.

4. A self-aligning plastic tubing lift mounting support frame as claimed in claim 1 wherein: the alignment cavity left wall front and back symmetry communicates respectively and is equipped with the locking tip chamber, the ability horizontal slip in the locking tip chamber is equipped with the locking tip, both sides around be equipped with opening locking groove to the left in the excircle face of turning block, locking tip right-hand member can slide in the roll-off locking groove.

5. A self-aligning plastic tubing lift mounting support frame as claimed in claim 4 wherein: the adjusting device is characterized in that a control lifting cavity is arranged on the lower side of the top block cavity in the adjusting block, a control lifting plate is arranged in the control lifting cavity in a vertically sliding mode, the upper end face of the control lifting plate is fixedly connected with lifting connecting rods between the lower end faces of the top block, the lower end face of the top block is fixedly connected with reset springs outside the lifting connecting rods between the lower end faces of the top block and the lower wall of the top block cavity, a connecting rod cavity is communicated between the lower wall of the locking pin cavity and the upper wall of the control lifting cavity, and a detection connecting rod is hinged between the lower end face of the locking pin and the upper end face of the control lifting plate.

6. A self-aligning plastic tubing lift mounting support frame as claimed in claim 1 wherein: a fixed plate is respectively and fixedly arranged on the outer circular surface of the alignment rotating shaft and one side of the rotating blocks at the front side and the rear side, which is far away from the central block, a torsion spring is fixedly connected between the rear end surface of the fixed plate at the rear side and the rear wall of the alignment cavity, a clamping spring is fixedly connected between one end surface of the fixed plate close to the central block and one end surface of the rotating block far away from the central block, a central spring is fixedly connected between one end surface of the rotating block close to the central block and the central block, an annular center block rotating cavity which is opened outwards is arranged in the center block, a center rotating ring is rotatably arranged in the center block rotating cavity, an offset detection rod is arranged in the offset detection cavity and can slide back and forth on the left side of the offset trigger slide block, the left end of the deviation detection rod is fixedly connected with the outer circular surface of the central rotating ring, and a deviation detection connecting rod is hinged between the right end surface of the deviation detection rod and the left end surface of the deviation trigger sliding block.

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