CN114542812A - Hydraulic pipeline support for house construction engineering construction - Google Patents

Abstract

The invention relates to a pipeline support, in particular to a hydraulic pipeline support for building engineering construction. The invention firstly pulls the opening and closing mechanism to swing upwards for a certain distance, the opening and closing mechanism swings upwards to drive the limiting frame to swing upwards, then the three hydraulic pipelines are placed on the bracket, then the opening and closing mechanism is pulled to swing downwards to reset to drive the limiting frame to swing downwards to reset, the resetting of the limiting mechanism is matched with the bracket to support and guide the hydraulic pipelines, thus the three hydraulic pipelines can be separated to support and guide, and the phenomenon that the three hydraulic pipelines are stacked together to generate friction force to influence the movement is avoided.

Description

Hydraulic pipeline support for house construction engineering construction

Technical Field

The invention relates to a pipeline bracket, in particular to a hydraulic pipeline bracket for house construction engineering construction.

Background

In the house construction process, hydraulic pipelines are needed to be used at part of construction positions, but the hydraulic pipelines are long in length and are rolled together, so that the head ends of the hydraulic pipelines need to be pulled to move to required positions.

Chinese patent publication No. CN212156039U discloses a hydraulic pipeline bracket for house construction engineering, which comprises a pipeline bracket body, wherein the pipeline bracket body comprises a bottom plate, a fixed seat is welded on the bottom plate, a supporting rod is arranged on the fixed seat, a groove is arranged on the supporting rod, a roller I is arranged in the groove, a fixed cover is arranged on the fixed seat, a threaded rod is arranged on the fixed cover, a lug is welded on one side of the supporting rod, a connecting rod is arranged on the lug, the connecting rod is fixed on the connecting rod through a connecting shaft, a fixed rod is arranged at one end of the connecting rod, the hydraulic pipeline bracket for house construction engineering adjusts the width through matching between the supporting rod and the connecting rod on the base, meets the use of environments with different widths, has large adjustable ranges of height and length, and adapts to various environments, although the above patent can support and guide the hydraulic lines, a plurality of hydraulic lines are stacked and moved, and thus a large frictional force is likely to be generated to affect the use.

The invention aims to solve the problems in the patent, and provides a hydraulic pipeline bracket for building construction engineering construction, which can separate and support and guide three hydraulic pipelines and avoid the influence of friction force generated by stacking together.

Disclosure of Invention

In order to overcome the defects that a plurality of hydraulic pipelines are stacked together to move and are easy to generate large friction force to influence use although the hydraulic pipelines can be supported and guided by the above patents, the invention provides a hydraulic pipeline bracket for building construction, which can separate three hydraulic pipelines to support and guide and avoid the stacked hydraulic pipelines to generate friction force to influence use.

The invention is realized by the following technical approaches:

the utility model provides a construction is built with fluid pressure type pipeline support in room, includes bottom plate, bracket, spacing, supporting mechanism and the mechanism that opens and shuts, and supporting mechanism is installed at the bottom plate top, and the last evenly spaced of supporting mechanism installs three brackets that are used for supporting the fluid pressure type pipeline, installs the mechanism that opens and shuts on the supporting mechanism, and the last evenly spaced of mechanism that opens and shuts installs and is used for carrying out spacing three spacing to the fluid pressure type pipeline.

Further, the supporting mechanism comprises a hollow rod, a connecting rod, a first spring, a hinged frame, a hinged rod, a sliding block, a guide rod, a second spring and a supporting plate, wherein three hollow rods are fixedly connected in the middle of the top of the bottom plate at even intervals, the connecting rod is arranged in the hollow rods in a sliding manner, the first spring is connected between the bottom end of the connecting rod and the inner bottom of the hollow rod, the supporting plate is fixedly connected between the top ends of the three hollow rods, the top of the supporting plate is fixedly connected with three brackets, the left end of the supporting plate is fixedly connected with the opening and closing mechanism, the guide rod is fixedly connected in the middle of the left side and the right side of the bottom of the supporting plate in an embedded manner, the sliding block is sleeved on the guide rod in a sliding manner, the second spring is connected between the outer side faces of the sliding blocks on the left side and the inner side of the supporting plate, the hinged frame is sleeved in a sliding manner between the lower parts of the three connecting rods, the hinged frame is rotatably connected with the hinged rods for supporting the supporting plate at the left end and the right end, the tail ends of the hinge rods at the left side and the right side are respectively connected with the bottom ends of the slide blocks at the left side and the right side in a rotating mode.

Further, the opening and closing mechanism comprises a bent plate, a fixed frame, a rotating shaft, a rotating rod, a cover plate, a shifting block, a transmission assembly, a rotating disc, an L-shaped plate, a magnet, a guide rod, a magnet block, a third spring, a first elastic part, a sliding rod, a rubber ball and a second elastic part, wherein the bent plate is fixedly connected at the left end of the supporting plate, the rotating rod is rotatably connected between the middle parts of the front side and the rear side of the bent plate in a penetrating manner, the cover plate is fixedly connected between the front side and the rear side of the rotating rod, the inner top of the cover plate is fixedly connected with three limiting frames, the cover plate is sleeved on the bent plate, the guide rod is slidably connected on the right side of the cover plate in a penetrating manner, the magnet block is fixedly connected at the bottom end of the guide rod and is contacted with the supporting plate, the third spring is sleeved on the guide rod, the fixed frame is fixedly connected on the right sides of the lower parts of the front side and the rear side of the bent plate, the rotating shaft is rotatably connected between the upper parts of the fixed frames on the front side and the rear side, a rotary table is fixedly connected to the middle of the rotary shaft, an L-shaped plate is fixedly connected to the middle of the left side of the top of the rotary table, a shifting block is fixedly connected to the middle of the outer top of the L-shaped plate, a bent plate penetrates through the upper portion of the shifting block, a slide rod is fixedly connected to the right end of the L-shaped plate in an embedded mode, a magnet for limiting the cover plate is slidably arranged on the slide rod in a sleeved mode, the magnet is embedded into the cover plate, a first elastic part is connected between the left side face of the magnet and the inner side of the L-shaped plate and sleeved on the slide rod, three rubber balls are slidably connected to the front side of the rotary rod in an embedded mode at even intervals along the circumferential direction, a second elastic part is connected between the inner side of each rubber ball and the inner side of the rotary rod, a transmission assembly is connected between the three rubber balls and the front side of the rotary shaft, and the transmission assembly is composed of two belt pulleys and a flat belt, one belt pulley is fixedly sleeved on the three rubber balls, the other belt pulley is fixedly sleeved on the rotating shaft, and the flat belt is wound between the two belt pulleys.

The device further comprises a pay-off mechanism for placing the hydraulic pipeline, the pay-off mechanism comprises a mounting frame, a mounting disc, a one-way shaft, a contact disc, a guide post, a fourth spring, a connecting disc, a magnetic post, a sliding block and a connecting frame, the mounting frame is fixedly connected to the right side of the rear side of the bottom plate, the mounting disc is fixedly connected to the top end of the mounting frame, the one-way shaft is rotatably connected to the middle of the mounting disc in a penetrating manner, the connecting frame is fixedly connected to the left side of the rear side of the bottom plate, the connecting disc is fixedly connected to the left side of the outer top of the connecting frame, the guide posts are symmetrically and longitudinally connected to the middle of the connecting disc in a penetrating manner, the contact disc for limiting the hydraulic pipeline is fixedly connected between the right ends of the front and rear guide posts, the contact disc is sleeved on the one-way shaft, the front and rear sides of the middle of the left side of the contact disc are respectively connected with the front and rear sides of the middle of the right side of the connecting disc in a penetrating manner, the fourth spring is sleeved on the guide post, the sliding block is connected to the right side of the outer top of the connecting frame in a sliding manner, the top end of the sliding block is fixedly connected with the middle of the bottom of the contact disc, the middle parts of the upper and lower sides of the left side surface of the contact disc and the middle parts of the upper and lower sides of the right side surface of the connecting disc are fixedly connected with magnetic columns, and the magnetic columns on the left side and the right side correspond to each other.

Further, the device also comprises a stabilizing mechanism for stably placing the bottom plate, the stabilizing mechanism comprises a belt component, a screw rod, a first piston cylinder, a guide pillar, a piston plate, a volute spring, a mounting plate, an air duct, a long pipe, a second piston cylinder, a piston rod, a fifth spring, a transverse plate, a suction cup, a friction ball and a sixth spring, the transverse plate is arranged between the lower part of the right side of the connecting frame and the lower part of the mounting frame, the mounting plate is fixedly connected between the middle part of the right side of the connecting frame and the lower part of the mounting frame, the second piston cylinder is fixedly connected on the left side and the right side of the bottom of the mounting plate, the piston rod is arranged in an inward sliding manner in the second piston cylinder, the suction cup for stabilizing is fixedly connected at the bottom end of the piston rod through the transverse plate, the fifth spring is connected between the top part of the transverse plate and the top part of the piston rod, the first piston cylinder is fixedly connected with the first piston cylinder, the left side of the first piston cylinder is communicated with the air duct, the long pipe is communicated with the middle of the left side of the bottom of the air duct, the two ends of the tail of the long pipe penetrate through the mounting plate and are respectively fixedly connected with the upper parts of the inner sides of the left and right second piston cylinders, the long pipe is communicated with the inner parts of the second piston cylinders, the guide posts are symmetrically and fixedly connected between the left and right sides in the first piston cylinder, a piston plate for pushing air into the air guide pipe is sleeved between the two guide posts in a sliding manner, a screw rod for driving the piston plate to move left and right is rotatably connected with the middle part of the right side of the first piston cylinder in a penetrating manner, the left end of the screw rod penetrates through the piston plate and is rotatably connected with the left side surface in the first piston cylinder, the screw rod is rotatably connected with the piston plate through threads, a volute spring is connected between the right side of the screw rod and the right side of the top of the mounting plate, friction balls are circumferentially and uniformly spaced embedded and slidably connected with friction balls, a sixth spring is connected between the inner sides of the friction balls and the right side of the one-way shaft, and a belt assembly is composed of two belt pulleys and a flat belt, one belt pulley is fixedly sleeved among the three friction balls, the other belt pulley is fixedly sleeved on the right side of the one-way shaft, and a flat belt is wound between the two belt pulleys.

The limiting mechanism comprises a limiting rod, a limiting arc plate and a seventh spring, the limiting rod is connected between the middle part of the limiting frame and the cover plate in a sliding mode in a penetrating mode, the bottom end of the limiting rod is fixedly connected with the limiting arc plate used for limiting the hydraulic pipeline, the seventh spring is connected between the outer top of the limiting arc plate and the inner side face of the limiting frame, and the seventh spring is sleeved on the limiting rod.

The pipeline guide device further comprises a power-assisted mechanism for enabling the hydraulic pipeline to move smoothly, the power-assisted mechanism comprises a power-assisted rod and a power-assisted wheel, the power-assisted rod is rotatably connected to the middle of the inner side face of the bracket, and the power-assisted wheel for guiding the hydraulic pipeline is fixedly connected to the middle of the power-assisted rod.

Further, six rolling balls are rotatably connected to the inner side surface of the limiting arc plate at uniform intervals.

The invention has the remarkable advantages that:

1. firstly, the opening and closing mechanism is pulled to swing upwards for a certain distance, the opening and closing mechanism swings upwards to drive the limiting frame to swing upwards, then the three hydraulic pipelines are placed on the bracket, the opening and closing mechanism is pulled to swing downwards to reset to drive the limiting frame to swing downwards to reset, the limiting mechanism resets and is matched with the bracket to support and guide the hydraulic pipelines, and thus the three hydraulic pipelines can be separated to be supported and guided, and the phenomenon that the three hydraulic pipelines are stacked together to generate friction to influence movement is avoided.

2. Under paying out machine constructs's effect, can place three rolls of fluid pressure type pipeline for fluid pressure type pipeline carries out the unwrapping wire, so, can make the better unwrapping wire of fluid pressure type pipeline use.

3. Under stabilizing mean's effect, when operating personnel pulled the removal of fluid pressure type pipeline and put on the bracket, stabilizing mean can inhale subaerial, so, when fluid pressure type pipeline pulling was used, can make the more firm use that does not influence fluid pressure type pipeline of placing of this device.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

FIG. 2 is a first partial cross-sectional structural schematic of the present invention.

Fig. 3 is an enlarged schematic view of part a of the present invention.

FIG. 4 is a second partial cross-sectional structural schematic of the present invention.

Fig. 5 is a third partial sectional structural schematic view of the present invention.

Fig. 6 is an enlarged view of part B of the present invention.

Fig. 7 is a fourth partial sectional structural view of the present invention.

Fig. 8 is a schematic view of a first partial body structure according to the present invention.

FIG. 9 is a schematic view of a second partial body structure according to the present invention.

Fig. 10 is a schematic view of a fifth partial sectional structure of the present invention.

FIG. 11 is a sixth partial sectional structural view of the present invention.

Fig. 12 is an enlarged schematic view of part C of the present invention.

Fig. 13 is a seventh partial sectional structural view of the present invention.

Fig. 14 is a partial sectional structural view of an eighth embodiment of the present invention.

Wherein the figures include the following reference numerals: 1. a bottom plate, 2, a bracket, 3, a limiting frame, 4, a supporting mechanism, 41, a hollow rod, 42, a connecting rod, 43, a first spring, 44, a hinged frame, 45, a hinged rod, 46, a sliding block, 47, a guide rod, 48, a second spring, 49, a supporting plate, 5, an opening and closing mechanism, 51, a bent plate, 52, a fixed frame, 53, a rotating shaft, 54, a rotating rod, 56, a cover plate, 57, a shifting block, 58, a transmission component, 59, a rotating disc, 510, an L-shaped plate, 511, a magnet, 512, a guide rod, 513, a magnetic block, 514, a third spring, 515, a first elastic component, 516, a sliding rod, 517, a rubber ball, 518, a second elastic component, 6, a paying-off mechanism, 61, a mounting frame, 62, a mounting disc, 63, a one-way shaft, 64, a contact disc, 65, a guide column, 66, a fourth spring, 67, a connecting disc, 68, a magnetic column, 69, a sliding block, 610, a connecting frame, 7 and a stabilizing mechanism, 71. the belt assembly comprises a belt assembly 72, a screw rod 73, a first piston cylinder 74, a guide pillar 75, a piston plate 76, a volute spiral spring 77, a mounting plate 78, an air guide pipe 79, a long pipe 710, a second piston cylinder 711, a piston rod 712, a fifth spring 713, a transverse plate 714, a sucker 715, a friction ball 716, a sixth spring 8, a limiting mechanism 81, a limiting rod 82, a limiting arc plate 83, a seventh spring 9, a power-assisted mechanism 91, a power-assisted rod 92 and a power-assisted wheel.

Detailed Description

The invention is further explained by combining the drawings in the specification and the embodiments of the invention are given by combining the drawings in the specification.

Example 1

A hydraulic pipeline support for house construction engineering construction comprises a bottom plate 1, brackets 2, limiting frames 3, supporting mechanisms 4 and opening and closing mechanisms 5, please refer to fig. 1-8, wherein the supporting mechanisms 4 are installed at the top of the bottom plate 1, three brackets 2 are installed on the supporting mechanisms 4 at equal intervals, the brackets 2 can support hydraulic pipelines, the opening and closing mechanisms 5 are installed on the supporting mechanisms 4, three limiting frames 3 are installed on the opening and closing mechanisms 5 at equal intervals, and the limiting frames 3 can limit the hydraulic pipelines.

The supporting mechanism 4 includes a hollow rod 41, a connecting rod 42, a first spring 43, a hinge bracket 44, a hinge rod 45, a slider 46, a guide rod 47, a second spring 48 and a supporting plate 49, please refer to fig. 1-3, three hollow rods 41 are installed at the middle of the top of the bottom plate 1 at regular intervals by welding, the connecting rod 42 is placed in the hollow rod 41 in a sliding manner, the first spring 43 is connected between the bottom end of the connecting rod 42 and the inner bottom of the hollow rod 41, the supporting plate 49 is installed at the top ends of the three hollow rods 41 by welding, the top of the supporting plate 49 is fixedly connected with three brackets 2, the left end of the supporting plate 49 is fixedly connected with the opening and closing mechanism 5, the guide rod 47 is fixedly connected in an embedded manner in the middle of the left and right sides of the bottom of the supporting plate 49, the slider 46 is slidably sleeved on the left and right sides, the guide rod 48 is connected between the outer side of the slider 46 and the inner side of the supporting plate 49, the second spring 48 is sleeved on the guide rod 47, the hinge frame 44 is sleeved between the lower portions of the three connecting rods 42 in a sliding mode, the hinge rod 45 is rotatably connected to the left end and the right end of the hinge frame 44, the support plate 49 can be supported by the hinge rod 45, and the tail ends of the hinge rods 45 on the left side and the right side are rotatably connected with the bottom ends of the sliding blocks 46 on the left side and the right side respectively.

The opening and closing mechanism 5 comprises a bent plate 51, a fixed frame 52, a rotating shaft 53, a rotating rod 54, a cover plate 56, a shifting block 57, a transmission assembly 58, a rotating disc 59, an L-shaped plate 510, a magnet 511, a guide rod 512, a magnetic block 513, a third spring 514, a first elastic part 515, a sliding rod 516, a rubber ball 517 and a second elastic part 518. referring to fig. 1, 4, 5, 6, 7 and 8, the bent plate 51 is installed at the left end of the supporting plate 49 in a welding connection manner, the rotating rod 54 is rotatably connected between the middle parts of the front and rear sides of the bent plate 51 in a penetrating manner, the cover plate 56 is installed between the front and rear sides of the rotating rod 54 in a welding connection manner, the top part in the cover plate 56 is fixedly connected with three limiting frames 3, the cover plate 56 is sleeved on the bent plate 51, the guide rod 512 is slidably connected on the right side of the cover plate 56 in a penetrating manner, the bottom end of the guide rod 512 is fixedly connected with the magnetic block 513, the magnetic block 513 is contacted with the supporting plate 49, the magnetic block 513 is mutually attracted with the supporting plate 49, a third spring 514 is connected between the top of the magnetic block 513 and the right side of the top of the cover plate 56, the third spring 514 is sleeved on the guide rod 512, the fixed frames 52 are fixedly connected to the right sides of the lower parts of the front and rear side surfaces outside the bent plate 51, the rotating shaft 53 is rotatably connected between the upper parts of the fixed frames 52 on the front and rear sides, the rotating disc 59 is installed in the middle of the rotating shaft 53, the L-shaped plate 510 is installed in the middle of the left side of the top of the rotating disc 59 in a welded connection mode, the dial block 57 is fixedly connected to the middle of the outer top of the L-shaped plate 510, the upper part of the dial block 57 penetrates through the bent plate 51, when an operator pulls the dial block 57 to swing downwards, the dial block 57 can drive the L-shaped plate 510 to swing downwards, the slide rod 516 is fixedly connected to the right end of the L-shaped plate 510 in an embedded mode, the magnet 511 is slidably sleeved on the cover plate 56, the magnet 511 can limit the cover plate 56, and the first elastic piece 515 is connected between the left side of the magnet 511 and the inner side of the L-shaped plate 510, the first elastic part 515 is sleeved on the sliding rod 516, the front side of the rotating rod 54 is connected with three rubber balls 517 in an embedded sliding mode at uniform intervals along the circumferential direction, a second elastic part 518 is connected between the inner side of each rubber ball 517 and the inner side of the rotating rod 54, a transmission assembly 58 is connected between each three rubber balls 517 and the front side of the rotating shaft 53, each transmission assembly 58 is composed of two belt pulleys and a flat belt, one belt pulley is fixedly sleeved on each three rubber ball 517, the other belt pulley is fixedly sleeved on the rotating shaft 53, and the flat belt is wound between the two belt pulleys.

Firstly, an operator pulls an opening and closing mechanism 5 to swing upwards to a proper position, the opening and closing mechanism 5 swings upwards to drive a limiting frame 3 to swing upwards for a certain distance, then three rolls of hydraulic pipelines are placed on a bracket 2, the hydraulic pipelines drive the bracket 2 to move downwards due to the weight of the hydraulic pipelines, the bracket 2 moves downwards to drive a supporting mechanism 4 to move downwards for a certain distance, the supporting mechanism 4 supports the hydraulic pipelines through the bracket 2, after the hydraulic pipelines are placed, the opening and closing mechanism 5 is pulled to swing downwards to reset, the opening and closing mechanism 5 swings downwards to reset to drive the limiting frame 3 to swing downwards to reset, the limiting frame 3 swings downwards to reset to be in contact with the hydraulic pipelines, the limiting frame 3 limits the hydraulic pipelines, the bracket 2 is matched with the limiting frame 3 to support and guide the hydraulic pipelines, the pipelines can be used, and after the hydraulic pipelines are used, the hydraulic pipeline is separated from the bracket 2 and the limiting frame 3, and the supporting mechanism 4 also moves upwards to reset and drives the bracket 2 to move upwards to reset.

When an operator pulls the opening and closing mechanism 5 to drive the limiting frame 3 to swing upwards for a certain distance, three hydraulic pipelines are respectively placed on the three brackets 2, the hydraulic pipelines drive the brackets 2 to move downwards, the brackets 2 move downwards to drive the supporting plate 49 to move downwards, the supporting plate 49 moves downwards to drive the connecting rod 42 to move downwards, the first spring 43 is compressed, the supporting plate 49 moves downwards to drive the guide rod 47 to move downwards, the guide rod 47 moves downwards to drive the sliding block 46 to move downwards, the sliding block 46 moves downwards to drive the hinge rod 45 to move downwards, the hinge rod 45 moves downwards to drive the hinge frame 44 to move downwards, when the hinge frame 44 moves downwards to contact with the top end of the hollow rod 41, the hollow rod 41 limits the hinge frame 44, the hinge frame 44 stops moving downwards, the supporting plate 49 continues to move downwards to drive the sliding block 46 to move downwards through the guide rod 47, because the hinged frame 44 is limited, the sliding block 46 moves downwards to drive the hinged rod 45 to swing downwards, the hinged rod 45 moves downwards to enable the sliding block 46 to move outwards, the second spring 48 is compressed, when the sliding block 46 moves outwards to the maximum stroke, the supporting plate 49 stops moving downwards, the bracket 2 supports the hydraulic pipeline, the opening and closing mechanism 5 is pulled to drive the limiting frame 3 to swing downwards to reset to be in contact with the hydraulic pipeline, and then the hydraulic pipeline can be used. When the hydraulic pipelines are completely used, the hydraulic pipelines are separated from the bracket 2, due to the action of the first spring 43, the connecting rod 42 moves upwards to reset to drive the supporting plate 49 to move upwards to reset, the supporting plate 49 resets to drive the bracket 2 to move upwards to reset, the supporting plate 49 moves upwards to reset to drive the sliding block 46 to move upwards through the guide rod 47 to reset, the sliding block 46 moves upwards to reset to drive the hinged frame 44 to move upwards through the hinged rod 45 to reset, the hinged frame 44 moves upwards to reset to be separated from the contact with the hollow rod 41, due to the action of the second spring 48, the sliding block 46 moves inwards to drive the hinged rod 45 to swing to reset, and the hinged rod 45 swings to reset to drive the hinged frame 44 to move downwards for a certain distance to reset completely.

Firstly, an operator pulls the shifting block 57 to swing downwards, the shifting block 57 swings downwards to drive the L-shaped plate 510 to swing downwards, the L-shaped plate 510 swings downwards to drive the magnet 511 to swing downwards through the first elastic part 515, the magnet 511 swings downwards to be separated from the cover plate 56, at this time, the operator pulls the cover plate 56 to swing upwards, the cover plate 56 swings upwards to drive the guide rod 512 and the limiting frame 3 to swing upwards, the guide rod 512 swings upwards to drive the magnet 513 to swing upwards, the magnet 513 swings upwards to be separated from the supporting plate 49, the cover plate 56 swings upwards to drive the rotating rod 54 to rotate backwards, the rotating rod 54 rotates backwards to drive the rubber ball 517 to rotate backwards, the rubber ball 517 drives the transmission assembly 58 to rotate backwards, due to the effect of the second elastic part 518, the friction between the rubber ball 517 and the transmission assembly 58 is firmer, the transmission assembly 58 rotates backwards to drive the rotating shaft 53 to rotate backwards to drive the rotating disc 59 to rotate backwards, the turntable 59 rotates reversely to drive the L-shaped plate 510 to rotate reversely, the L-shaped plate 510 rotates reversely to drive the shifting block 57 to rotate reversely, the L-shaped plate 510 further drives the magnet 511 to swing downwards through the first elastic member 515, and then when the shifting block 57 swings downwards to the maximum stroke, the cover plate 56 stops pulling the cover plate 56 to swing upwards, the cover plate 56 stops driving the rubber ball 517 to rotate reversely through the rotating rod 54, the rubber ball 517 stops driving the rotating shaft 53 to rotate reversely through the transmission assembly 58, the rotating shaft 53 stops driving the turntable 59 to rotate reversely, the turntable 59 stops driving the L-shaped plate 510 to swing downwards, the shifting block 57 stops swinging downwards, so that the hydraulic pipeline can be placed on the bracket 2, after the hydraulic pipeline is placed, the cover plate 56 is pulled to swing downwards to reset, the cover plate 56 swings downwards to reset to drive the limiting frame 3 and the guide rod 512 to swing downwards, the limiting frame 3 swings downwards to reset to be in contact with the hydraulic pipeline, the limiting frame 3 limits the hydraulic pipeline, the guide rod 512 swings downwards to reset to drive the magnetic block 513 to swing downwards to reset, the magnet 513 resets and contacts the supporting plate 49, the magnet 513 is adsorbed on the supporting plate 49 through magnetic force, the magnet 513 is fixed, the cover plate 56 is fixed through the guide rod 512, due to the effect of the third spring 514, the magnet 513 can be more closely contacted with the supporting plate 49 for adsorption, meanwhile, the cover plate 56 swings downwards and resets and drives the rotating rod 54 to rotate forwards and reset, the rotating rod 54 rotates forwards and resets and drives the transmission assembly 58 to rotate forwards through the rubber ball 517, the transmission assembly 58 rotates forwards and drives the rotating disc 59 to rotate forwards and reset through the rotating shaft 53, the rotating disc 59 rotates forwards and resets and drives the shifting block 57 to swing upwards and reset through the L-shaped plate 510, the L-shaped plate 510 drives the magnet 511 to swing upwards and reset through the first elastic piece 515, the magnet 511 resets and contacts with the inner side of the cover plate 56, and the magnet 511 limits the cover plate 56 and can start to use the pipeline in a hydraulic mode.

Example 2

On the basis of embodiment 1, the paying-off device further comprises a paying-off mechanism 6, wherein the paying-off mechanism 6 comprises a mounting frame 61, a mounting disc 62, a one-way shaft 63, a contact disc 64, a guide post 65, a fourth spring 66, a connecting disc 67, a magnetic post 68, a sliding block 69 and a connecting frame 610, as shown in fig. 1 and fig. 9, the mounting frame 61 is mounted on the right side of the rear side of the bottom plate 1 in a welding connection mode, the mounting disc 62 is fixedly connected to the top end of the mounting frame 61, the one-way shaft 63 is rotatably connected to the middle of the mounting disc 62 in a penetrating mode, the connecting frame 610 is mounted on the left side of the rear side of the bottom plate 1 in a welding connection mode, the connecting disc 67 is fixedly connected to the left side of the outer top of the connecting frame 610, the guide posts 65 are symmetrically connected to the front and back of the middle of the connecting disc 67 in a penetrating mode, the contact disc 64 is mounted between the right ends of the guide posts 65 on the front and back sides in a welding connection mode, the contact disc 64 is sleeved on the one-way shaft 63, when an operator sleeves three-winding pipeline on the one-way shaft 63, contact dish 64 can realize spacing to fluid pressure type pipeline, contact dish 64 left surface middle part front and back both sides respectively with be connected with fourth spring 66 between the connection pad 67 right surface middle part front and back both sides, fourth spring 66 overlaps on guide post 65, the slidingtype sliding block 69 that is connected with in link 610 outer top right side, the sliding block 69 top is installed through welded connection's mode in the middle of with contact dish 64 bottom, both sides middle part all the rigid coupling has magnetic pillar 68 about contact dish 64 left surface upper and lower both sides middle part and connection pad 67 right surface, left and right sides magnetic pillar 68 is corresponding, when left and right sides magnetic pillar 68 contact, magnetic pillar 68 can realize fixing contact dish 64.

The device also comprises a stabilizing mechanism 7, wherein the stabilizing mechanism 7 comprises a belt assembly 71, a screw rod 72, a first piston cylinder 73, a guide post 74, a piston plate 75, a scroll spring 76, a mounting plate 77, an air duct 78, a long tube 79, a second piston cylinder 710, a piston rod 711, a fifth spring 712, a transverse plate 713, a suction cup 714, a friction ball 715 and a sixth spring 716, please refer to fig. 1, 10, 11 and 12, the transverse plate 713 is arranged between the lower part of the right side of the connecting frame 610 and the lower part of the mounting frame 61, the mounting plate 77 is arranged between the middle part of the right side of the connecting frame 610 and the lower part of the mounting frame 61 in a bolt connection manner, the second piston cylinder 710 is arranged on the left side and the right side of the bottom of the mounting plate 77 in a welding connection manner, the piston rod 711 is slidably arranged in the second piston cylinder 710, the suction cup 714 fixedly connected with the transverse plate 714 is fixedly connected with the bottom end of the piston rod 711, when the suction cup 714 moves downwards to contact with the ground, the suction cup 714 can fix the piston rod 711, the fifth spring 712 is connected between the top of the piston rod 711 and the top of the transverse plate 713, the first piston cylinder 73 is installed on the right side of the top of the mounting plate 77 in a welding connection mode, the left side of the first piston cylinder 73 is communicated with the air duct 78, the middle of the left side of the bottom of the air duct 78 is communicated with the long tube 79, two ends of the tail of the long tube 79 penetrate through the mounting plate 77 and are respectively fixedly connected with the upper parts of the inner sides of the second piston cylinders 710 on the left and right sides, the long tube 79 is communicated with the second piston cylinder 710, the guide posts 74 are symmetrically and fixedly connected between the left side and the right side of the first piston cylinder 73, the piston plate 75 is slidably sleeved between the two guide posts 74, when the piston plate 75 moves leftwards, air can be pushed into the air duct 78 by the piston plate 75, the screw rod 72 rotatably penetrates through the middle part of the right side of the first piston cylinder 73, and the left end of the screw rod 72 is rotatably connected with the left side surface of the first piston cylinder 73, screw 72 and piston plate 75 pass through threaded rotary connection, when screw 72 just anti-rotation in turn rotates, screw 72 can realize driving piston plate 75 and remove about, be connected with spiral spring 76 between screw 72 right side and the right side of mounting panel 77 top, screw 72 right side is along embedded sliding connection who evenly separates in circumference has friction ball 715, be connected with sixth spring 716 between friction ball 715 inboard and the screw 72 inboard, be connected with belt subassembly 71 between three friction ball 715 and the one-way axle 63 right side, belt subassembly 71 comprises two belt pulleys and flat belt, one of them belt pulley fixed suit is between three friction ball 715, another belt pulley fixed suit is on the one-way axle 63 right side, the flat belt is around between two belt pulleys.

Firstly, an operator pulls the contact disc 64 to move leftwards, the fourth spring 66 is compressed, the contact disc 64 moves leftwards to drive the right magnetic column 68 to move leftwards, the contact disc 64 moves leftwards to be separated from the contact with the one-way shaft 63, when the right magnetic column 68 moves leftwards to be contacted with the left magnetic column 68, the left magnetic column 68 is attracted and fixed by magnetic force, the right magnetic column 68 is fixed to enable the contact disc 64 to be fixed, the operator can sleeve three rolls of hydraulic pipelines on the one-way shaft 63, then pulls the contact disc 64 to move rightwards for a certain distance, the contact disc 64 moves rightwards to drive the right magnetic column 68 to move rightwards to be separated from the contact with the left magnetic column 68, releases the contact disc 64, due to the action of the fourth spring 66, the contact disc 64 moves rightwards to reset to drive the right magnetic column 68 to move rightwards to reset, the contact disc 64 is reset to be contacted with the hydraulic pipelines, the contact disc 64 compresses and limits the hydraulic pipelines, the head end of the hydraulic pipeline can be pulled to move forwards and placed on the bracket 2, the hydraulic pipeline moves forwards to drive the one-way shaft 63 to rotate reversely, after the hydraulic pipeline is placed, the hydraulic pipeline stops being pulled, the hydraulic pipeline stops driving the one-way shaft 63 to rotate reversely, the operation is repeated, and when an operator pulls the hydraulic pipeline to move, the hydraulic pipeline drives the one-way shaft 63 to rotate reversely. Thus, the hydraulic pipeline can be better used for paying off.

When an operator pulls the hydraulic pipeline to move forwards and place the pipeline on the bracket 2, the hydraulic pipeline drives the one-way shaft 63 to rotate backwards, the one-way shaft 63 rotates backwards to drive the belt assembly 71 to rotate backwards, the belt assembly 71 rotates backwards to drive the friction ball 715 to rotate backwards, the friction ball 715 can be tightly contacted with the belt assembly 71 under the action of the sixth spring 716, the friction ball 715 rotates backwards to drive the screw rod 72 to rotate backwards, the scroll spring 76 is compressed, the screw rod 72 rotates backwards to drive the piston plate 75 to move leftwards through threads, the piston plate 75 moves leftwards to push the air in the first piston cylinder 73 into the air duct 78, the air in the air duct 78 is discharged into the long tube 79, the air in the long tube 79 is discharged into the second piston cylinder 710 to be contacted with the piston rod 711, the air in the second piston cylinder 710 pushes the piston rod 711 to move downwards, the fifth spring 712 is compressed, the piston rod 711 moves downwards to drive the sucker 714 to move downwards, the sucker 714 moves downwards to be contacted with the ground, sucking disc 714 then inhales on the ground, sucking disc 714 is fixed with piston rod 711, piston rod 711 is fixed and is made diaphragm 713 fixed, diaphragm 713 is fixed and is made mounting bracket 61 and link 610 fixed, mounting bracket 61 and link 610 make bottom plate 1 fixed, also make this device more firm place, when piston plate 75 moved to the maximum stroke left, piston plate 75 stops moving left, piston plate 75 makes lead screw 72 stop reversing, lead screw 72 makes friction ball 715 stop reversing, belt subassembly 71 can continue to reverse and slide on friction ball 715, when the hydraulic pressure pipeline moved to suitable position, stop pulling the hydraulic pressure type pipeline, the hydraulic pressure type pipeline stops driving one-way shaft 63 to reverse, one-way shaft 63 stops driving belt subassembly 71 to reverse. When the device needs to move, the sucker 714 is pulled to be separated from the ground, due to the action of the fifth spring 712, the piston rod 711 moves upwards to reset and drives the sucker 714 to move upwards to reset, the piston rod 711 moves upwards to reset and pushes air in the second piston cylinder 710 into the long pipe 79, the air in the long pipe 79 is discharged into the air guide pipe 78, the air in the air guide pipe 78 is discharged into the first piston cylinder 73, the air is contacted with the piston plate 75, and meanwhile, due to the action of the volute spring 76, the screw rod 72 rotates forwards to reset and drives the piston plate 75 to move rightwards through threads, so that the device can start to move. Therefore, when the hydraulic pipeline is pulled for use, the device can be placed more stably without influencing the use of the hydraulic pipeline.

Example 3

On the basis of embodiment 1 and embodiment 2, still include stop gear 8, stop gear 8 includes spacing pole 81, spacing arc 82 and seventh spring 83, please refer to fig. 1 and fig. 13, sliding type cross-under between spacing frame 3 middle part and apron 56 is limited pole 81, spacing arc 82 is installed through welded connection's mode to the spacing pole 81 bottom, the evenly spaced rotary type of spacing arc 82 medial surface is connected with six balls, when the fluid pressure type pipeline is put on bracket 2, spacing arc 82 can realize spacing the fluid pressure type pipeline, be connected with seventh spring 83 between spacing arc 82 outer top and the spacing frame 3 medial surface, seventh spring 83 cover is on spacing pole 81.

The pipeline guide device further comprises a power-assisted mechanism 9, wherein the power-assisted mechanism 9 comprises a power-assisted rod 91 and a power-assisted wheel 92, please refer to fig. 1 and 14, the power-assisted rod 91 is rotatably connected to the middle of the inner side surface of the bracket 2, the power-assisted wheel 92 is mounted in the middle of the power-assisted rod 91, and when an operator pulls the hydraulic pipeline to move, the power-assisted wheel 92 can guide the hydraulic pipeline.

When an operator pulls the cover plate 56 to swing upwards, the cover plate 56 drives the limiting frame 3 to swing upwards, the limiting frame 3 swings upwards to drive the limiting arc plate 82 to swing upwards through the seventh spring 83, and then after the hydraulic pipeline is placed, the cover plate 56 is pulled to swing downwards to reset, the cover plate 56 swings downwards to reset to drive the limiting frame 3 to swing downwards to reset, the limiting frame 3 resets to drive the limiting arc plate 82 to swing downwards through the seventh spring 83, the limiting arc plate 82 swings downwards to be in contact with the hydraulic pipeline, the limiting arc plate 82 limits the hydraulic pipeline, due to the effect of the seventh spring 83, the limiting arc plate 82 can better limit the hydraulic pipeline, and due to the fact that six rolling balls are rotatably connected to the inner side face of the limiting arc plate 82 at even intervals, friction force with the hydraulic pipeline can be reduced, and limiting is not affected. When the hydraulic pipelines are completely used, the hydraulic pipelines are separated from the limit arc plate 82. Therefore, the hydraulic pipeline can be better limited.

When the hydraulic pipeline is placed on the bracket 2, the hydraulic pipeline is in contact with the auxiliary wheel 92, and further when an operator pulls the hydraulic pipeline to move for use, the hydraulic pipeline drives the auxiliary wheel 92 to rotate reversely, and the auxiliary wheel 92 rotates reversely to guide the hydraulic pipeline. When the operator stops pulling the hydraulic line to move, the hydraulic line stops driving the auxiliary wheel 92 to rotate reversely. Therefore, the hydraulic pipeline can move more smoothly.

Finally, it is necessary to state that: the above-mentioned contents are only used to help understanding the technical solution of the present invention, and should not be interpreted as limiting the scope of the present invention; insubstantial modifications and adaptations of the invention as described above will occur to those skilled in the art and are intended to be within the scope of the invention as claimed.

Claims (8)

1. The utility model provides a construction is built with fluid pressure type pipeline support in room, including bottom plate (1), bracket (2) and spacing (3), bottom plate (1) top is equipped with three bracket (2), bracket (2) are used for supporting the fluid pressure type pipeline, the quantity of spacing (3) is three, spacing (3) are used for spacing to the fluid pressure type pipeline, characterized by, still including supporting mechanism (4) and mechanism (5) that opens and shuts, supporting mechanism (4) are installed at bottom plate (1) top, supporting mechanism (4) and three bracket (2) fixed connection, install mechanism (5) that opens and shuts on supporting mechanism (4), mechanism (5) and three spacing (3) fixed connection open and shut.

2. The hydraulic pipeline bracket for the building construction project according to claim 1, characterized in that the supporting mechanism (4) comprises a hollow rod (41), a connecting rod (42), a first spring (43), a hinge bracket (44), a hinge rod (45), a slide block (46), a guide rod (47), a second spring (48) and a supporting plate (49), three hollow rods (41) are fixedly connected in the middle of the top of the bottom plate (1) at regular intervals, the connecting rod (42) is placed in the hollow rod (41) in a sliding manner, the first spring (43) is connected between the bottom end of the connecting rod (42) and the inner bottom of the hollow rod (41), a supporting plate (49) is fixedly connected between the top ends of the three hollow rods (41), the top of the supporting plate (49) is fixedly connected with the three brackets (2), the left end of the supporting plate (49) is fixedly connected with the opening and closing mechanism (5), the guide rods (47) are fixedly connected in the middle of the left and right sides of the bottom of the supporting plate (49) in an embedded manner, the sliding type cover is equipped with slider (46) on guide arm (47), be connected with second spring (48) between left and right sides slider (46) lateral surface and backup pad (49) inboard, second spring (48) cover is on guide arm (47), the sliding type cover is equipped with articulated frame (44) between three connecting rods (42) lower part, articulated frame (44) about both ends all the rotary type be connected with be used for carrying out the articulated rod (45) that support to backup pad (49), left and right sides articulated rod (45) tail end is connected with left and right sides slider (46) bottom rotary type respectively.

3. The hydraulic pipeline bracket for the building engineering construction according to claim 2, wherein the opening and closing mechanism (5) comprises a bent plate (51), a fixed frame (52), a rotating shaft (53), a rotating rod (54), a cover plate (56), a shifting block (57), a transmission assembly (58), a rotating disc (59), an L-shaped plate (510), a magnet (511), a guide rod (512), a magnet block (513), a third spring (514), a first elastic part (515), a sliding rod (516), a rubber ball (517) and a second elastic part (518), the left end of the support plate (49) is fixedly connected with the bent plate (51), the rotating rod (54) is rotatably connected between the middle parts of the front side and the rear side of the bent plate (51), the cover plate (56) is fixedly connected between the front side and the rear side of the rotating rod (54), the top of the cover plate (56) is fixedly connected with the three limiting frames (3), the cover plate (56) is sleeved on the bent plate (51), a guide rod (512) is slidably connected to the right side of the cover plate (56) in a penetrating manner, a magnetic block (513) is fixedly connected to the bottom end of the guide rod (512), the magnetic block (513) is in contact with the supporting plate (49), a third spring (514) is connected between the top of the magnetic block (513) and the right side of the inner top of the cover plate (56), the third spring (514) is sleeved on the guide rod (512), fixing frames (52) are fixedly connected to the lower right sides of the front side surface and the rear side surface of the outer part of the bent plate (51), a rotating shaft (53) is rotatably connected between the upper parts of the fixing frames (52) at the front side and the rear side, a rotating disc (59) is fixedly connected to the middle part of the rotating shaft (53), an L-shaped plate (510) is fixedly connected to the middle of the left side of the top of the rotating disc (59), a shifting block (57) is fixedly connected to the middle part of the outer top of the L-shaped plate (510), a sliding bar (516) penetrates through the upper part of the bent plate (51), a sliding bar (516) is fixedly connected to the sliding manner, a sliding magnet (511) for limiting the cover plate (56) is sleeved on the sliding manner, magnet (511) imbeds in apron (56), be connected with first elastic component (515) between magnet (511) left surface and L template (510) inboard, first elastic component (515) cover is on slide bar (516), the embedded sliding connection who evenly separates along circumference of bull stick (54) front side has three rubber ball (517), be connected with second elastic component (518) between rubber ball (517) inboard and bull stick (54) inboard, be connected with between three rubber ball (517) and pivot (53) front side transmission assembly (58), transmission assembly (58) comprise two belt pulleys and flat belt, one of them belt pulley fixed suit is on three rubber ball (517), another belt pulley fixed suit is on pivot (53), the flat belt is around between two belt pulleys.

4. The hydraulic pipeline bracket for building engineering construction according to claim 3, which is characterized by further comprising a paying-off mechanism (6) for placing a hydraulic pipeline, wherein the paying-off mechanism (6) comprises a mounting bracket (61), a mounting plate (62), a one-way shaft (63), a contact plate (64), a guide post (65), a fourth spring (66), a connecting plate (67), a magnetic post (68), a sliding block (69) and a connecting frame (610), the mounting bracket (61) is fixedly connected to the right side of the rear side of the bottom plate (1), the mounting plate (62) is fixedly connected to the top end of the mounting bracket (61), the one-way shaft (63) is rotatably connected to the middle of the mounting plate (62) in a penetrating manner, the connecting frame (610) is fixedly connected to the left side of the rear side of the bottom plate (1), the connecting plate (67) is fixedly connected to the left side of the outer top of the connecting frame (610), the guide posts (65) are symmetrically connected to the middle of the connecting plate (67) in a penetrating manner in a front-back manner, the rigid coupling has between front and back both sides guide post (65) right-hand member to be used for carrying on spacing contact dish (64) to fluid pressure type pipeline, contact dish (64) cover is on one-way axle (63), contact dish (64) left surface middle part front and back both sides respectively with connection pad (67) right flank middle part between the front and back both sides be connected with fourth spring (66), fourth spring (66) cover is on guide post (65), sliding block (69) of being connected with of link (610) outer top right side slidingtype, fixed connection in the middle of sliding block (69) top and contact dish (64) bottom, both sides middle part and connection pad (67) right side both sides middle part all the rigid coupling has magnetic pillar (68) about contact dish (64) left surface, left and right sides magnetic pillar (68) are corresponding.

5. The hydraulic pipeline bracket for the house building engineering construction according to claim 4, which is characterized by further comprising a stabilizing mechanism (7) for stably placing the bottom plate (1), wherein the stabilizing mechanism (7) comprises a belt assembly (71), a screw rod (72), a first piston cylinder (73), a guide post (74), a piston plate (75), a volute spring (76), a mounting plate (77), an air guide pipe (78), a long pipe (79), a second piston cylinder (710), a piston rod (711), a fifth spring (712), a transverse plate (713), a suction cup (714), a friction ball (715) and a sixth spring (716), the transverse plate (713) is arranged between the lower part of the right side of the connecting frame (610) and the lower part of the mounting frame (61), the mounting plate (77) is fixedly connected between the middle part of the right side of the connecting frame (610) and the lower part of the mounting frame (61), the second piston cylinder (710) is fixedly connected to the left side and the right side of the bottom of the mounting plate (77), a piston rod (711) is placed in the second piston cylinder (710) in a sliding manner, a sucking disc (714) for stabilizing is fixedly connected to the bottom end of the piston rod (711) in a sliding manner through the transverse plate (713), a fifth spring (712) is connected between the top of the piston rod (711) and the top of the transverse plate (713), a first piston cylinder (73) is fixedly connected to the right side of the top of the mounting plate (77), an air guide pipe (78) is communicated to the left side of the first piston cylinder (73), a long pipe (79) is communicated to the middle of the left side of the bottom of the air guide pipe (78), two ends of the tail of the long pipe (79) penetrate through the mounting plate (77) and are fixedly connected to the upper parts of the inner sides of the second piston cylinders (710) on the left side and the right side respectively, the long pipe (79) is communicated with the second piston cylinders (710), guide posts (74) are symmetrically fixedly connected between the left side and the right side of the first piston cylinder (73), a piston plate (75) for pushing air into the air guide pipe (78) is sleeved between the two guide posts (74) in a sliding manner, a screw rod (72) for driving a piston plate (75) to move left and right is rotatably connected in the middle of the right side of a first piston cylinder (73), the left end of the screw rod (72) penetrates through the piston plate (75) and is rotatably connected with the inner left side surface of the first piston cylinder (73), the screw rod (72) is rotatably connected with the piston plate (75) through threads, a volute spiral spring (76) is connected between the right side of the screw rod (72) and the right side of the top of a mounting plate (77), embedded sliding balls (715) are uniformly connected to the right side of the screw rod (72) at intervals along the circumferential direction, a sixth spring (716) is connected between the inner side of each friction ball (715) and the inner side of the screw rod (72), a belt assembly (71) is connected between the three friction balls (715) and the right side of a one-way shaft (63), the belt assembly (71) is composed of two belt pulleys and a flat belt, one of the belt pulleys is fixedly sleeved among the three friction balls (715), the other belt pulley is fixedly sleeved on the right side of the one-way shaft (63), and a flat belt is wound between the two belt pulleys.

6. The hydraulic pipeline support for the building engineering construction according to claim 5, characterized by further comprising a limiting mechanism (8) for limiting a hydraulic pipeline, wherein the limiting mechanism (8) comprises a limiting rod (81), a limiting arc plate (82) and a seventh spring (83), the limiting rod (81) is connected between the middle part of the limiting frame (3) and the cover plate (56) in a sliding manner in a penetrating manner, the limiting arc plate (82) for limiting the hydraulic pipeline is fixedly connected to the bottom end of the limiting rod (81), the seventh spring (83) is connected between the outer top of the limiting arc plate (82) and the inner side surface of the limiting frame (3), and the seventh spring (83) is sleeved on the limiting rod (81).

7. The hydraulic pipeline bracket for building engineering construction according to claim 6, further comprising a power-assisted mechanism (9) for smoothly moving the hydraulic pipeline, wherein the power-assisted mechanism (9) comprises a power-assisted rod (91) and a power-assisted wheel (92), the power-assisted rod (91) is rotatably connected to the middle of the inner side surface of the bracket (2), and the power-assisted wheel (92) for guiding the hydraulic pipeline is fixedly connected to the middle of the power-assisted rod (91).

8. The hydraulic pipeline bracket for building engineering construction according to claim 7, wherein six rolling balls are rotatably connected to the inner side surface of the limiting arc plate (82) at even intervals.

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