CN111828262B - Unrestrained butt joint locator of high altitude component anti-wind - Google Patents

Abstract

The invention discloses a wind wave resisting butt joint positioner for a high-altitude component, which comprises: the positioning device comprises a positioning barrel, a positioning cover plate and a positioning rope, wherein the positioning cover plate is arranged at the upper end of the positioning barrel, and the upper end of the positioning rope is connected to the inside of the positioning barrel. The invention provides a high-altitude component wind wave resisting butt joint positioner which mainly comprises a positioning cylinder, a positioning cover plate and a positioning rope, wherein after being installed in a first bolt hole and a second bolt hole, the high-altitude component wind wave resisting butt joint positioner slowly falls on a lower tower along with the upper tower, and then the positioning rope is pulled by a plurality of operators to play a role in auxiliary guiding of the upper tower, so that the lower end of the positioning cylinder is inserted into the second bolt hole, the first bolt hole and the second bolt can fall in alignment, the butt joint of the upper tower on the lower tower is realized, and the high-altitude component wind wave resisting butt joint positioner can greatly improve the butt joint working efficiency of the towers and has the effects of safety and tower protection.

Description

Unrestrained butt joint locator of high altitude component anti-wind

Technical Field

The invention relates to the technical field of hoisting of wind turbine tower barrels, in particular to a wind and wave resisting butt joint positioner for a high-altitude component.

Background

The wind turbine is generally 90-150 m in height and generally comprises 5 towers, a cabin, a hub, blades and the like, and the number of butt bolts of the two towers is about 100. Generally in the hoist and mount in-process, two cable wind ropes are tied to the bottom of last section of tower, the personnel that have next section of tower inside come the pulling, in the butt joint in-process, the bolt hole one-to-one about needing, because tower section of tower weight is big, the size is big, hoist and mount in addition is high altitude construction, the wind speed is great, transfer in-process because rocking of the tower section of tower, it is difficult to once only align the flange bolt hole between the tower section of tower of both ends, often will lift by crane repeatedly, adjust the alignment that just can accomplish the flange bolt hole many times, waste time and energy, inefficiency. Therefore, there is a need for a wind and wave resisting docking locator for high-altitude members, which at least partially solves the problems of the prior art.

Disclosure of Invention

A series of concepts in a simplified form are introduced in the summary section, which is described in further detail in the detailed description section. This summary of the invention is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.

To at least partially solve the above problems, the present invention provides a wind-wave resisting butting locator for a high-altitude component, comprising:

the positioning device comprises a positioning barrel, a positioning cover plate and a positioning rope, wherein the positioning cover plate is arranged at the upper end of the positioning barrel, and the upper end of the positioning rope is connected inside the positioning barrel.

Preferably, the positioning cylinder is provided with an interception mechanism, and the upper end of the positioning rope is positioned in the positioning cylinder and connected with the interception mechanism.

Preferably, the intercepting mechanism comprises an intercepting cylinder, an intercepting rod, an intercepting ring, a first spring, a plurality of second springs, a plurality of intercepting guide wires and a plurality of intercepting top plates, a positioning hole is formed in the positioning cover plate, the intercepting cylinder is arranged below the positioning cover plate and corresponds to the positioning hole, the intercepting rod is arranged in the intercepting cylinder, the upper end of the intercepting rod penetrates through the positioning hole, the first spring is arranged on a bottom plate of the intercepting cylinder, the upper end of the first spring is connected with the lower end of the intercepting rod, the intercepting ring is arranged in the intercepting cylinder through a plurality of cross rods and sleeved on the intercepting rod, a plurality of openings are formed in the intercepting cylinder, the bottom of the intercepting top plate is hinged to the bottom of the openings, the intercepting top plates are selectively inserted in the openings, limit rods are arranged on the inner sides of the intercepting top plates, the second spring is arranged between the intercepting top plates and the intercepting ring, the intercepting guide wires are arranged on the guide wheels in a winding mode, one end of the intercepting top plate is connected with the lower end of the intercepting guide wires, and the other end of the intercepting top plate is connected with the lower end of the intercepting rod;

the upper end of the positioning rope is connected with an intercepting seat, a convex intercepting groove is formed in the intercepting seat, and the intercepting cylinder is selectively connected with the convex intercepting groove through a plurality of intercepting top plates.

Preferably, wherein a first bottom groove is formed in a bottom plate of the intercepting cylinder, a guide cylinder is connected to the first bottom groove, a plurality of guide bar-shaped holes are formed in the guide cylinder, the lower end of the intercepting rod is located in the guide cylinder and is connected with a guide block, the guide block is connected to the guide bar-shaped holes in a sliding mode, the first spring is arranged in the guide cylinder, the lower end of the first spring is located in the first bottom groove, and the upper end of the first spring is connected with the lower end of the intercepting rod.

Preferably, the intercepting mechanism comprises an intercepting cylinder, an intercepting rod, an intercepting sleeve, a plurality of third springs, a plurality of fourth springs, a plurality of intercepting guide wires and a plurality of intercepting top plates, wherein a positioning hole is formed in the positioning cover plate, the intercepting cylinder is arranged below the positioning cover plate and corresponds to the positioning hole, the intercepting rod is arranged in the intercepting cylinder, the upper end of the intercepting rod penetrates through the positioning hole, a flat rod is arranged at the upper end of the intercepting rod, the intercepting sleeve is sleeved on the intercepting rod, a plurality of openings are formed in the intercepting cylinder, the bottom of the intercepting top plate is hinged to the bottom of the openings, the intercepting top plates are selectively inserted into the openings, limiting rods are arranged on the inner sides of the intercepting top plates, the third springs are arranged between the intercepting top plates and the intercepting sleeve, the intercepting guide wires are sleeved in the third springs, one ends of the intercepting guide wires are connected with the intercepting top plates, the other ends of the intercepting top plates are connected with the intercepting sleeve, and a plurality of the fourth springs are uniformly distributed between the intercepting cylinder and the intercepting sleeve and are arranged in a cross way with the third springs;

the upper end of the positioning rope is connected with an intercepting seat, a convex intercepting groove is formed in the intercepting seat, and the intercepting cylinder is selectively connected with the convex intercepting groove through a plurality of intercepting top plates.

Preferably, a bottom plate of the intercepting cylinder is provided with a convex second bottom groove, the lower end of the intercepting rod is connected in the second bottom groove through a rotating plate, a torsion spring is arranged in the second bottom groove, the lower end of the intercepting rod is connected with the torsion spring, and a limiting block corresponding to the horizontal rod is arranged on the positioning cover plate.

Preferably, the intercepting device further comprises a fixing assembly corresponding to the intercepting seat, the fixing assembly is connected with the positioning cover plate, an inverted T-shaped groove and an inverted L-shaped rotating groove are formed in the positioning cover plate, the opening direction of the inverted T-shaped groove is located on the upper surface of the positioning cover plate, the T-shaped groove is communicated with the rotating groove, and the rotating groove and the positioning hole are arranged coaxially;

the fixing assembly comprises a supporting flange, a T-shaped rod, a gear, a rotary drum, a fluted disc, a rotary disc, a plurality of auxiliary mechanisms, a plurality of transmission mechanisms and a plurality of tightening plates, the supporting flange is arranged on the inner wall of the positioning cylinder, the intercepting seat is inserted into the supporting flange, the gear is arranged in the inverted T-shaped groove, the T-shaped rod is inserted into the inverted T-shaped groove and connected with the gear, the fluted disc is arranged in the rotary groove and meshed with the gear, the upper end of the rotary drum is inserted into the rotary groove and connected with the fluted disc, the rotary disc is arranged at the lower end of the rotary drum, the transmission mechanisms are all arranged on the inner side wall of the rotary disc, the tightening plates are arranged on the supporting flange and movably connected with the transmission mechanisms, the tightening plates are used for selectively tightening the intercepting seat, and the auxiliary mechanisms are arranged on the supporting flange and abut against the tightening plates.

Preferably, the hooping plate comprises a vertical rod, a hooping outer plate and a hooping inner plate, the vertical rod is vertically arranged on the supporting flange, the hooping outer plate is sleeved on the vertical rod, the hooping inner plate is connected to the inner side wall of the hooping outer plate, and the hooping inner plate is used for hooping the intercepting seat.

Preferably, the transmission mechanism comprises a first transmission block, a second transmission block and a transmission rod, the first transmission block is arranged on the inner side wall of the turntable, the second transmission block is arranged on the hooping outer plate and close to the vertical rod, the outer end of the transmission rod is movably connected with the first transmission block, and the inner end of the transmission rod is movably connected with the second transmission block.

Preferably, the auxiliary mechanism includes an auxiliary cylinder, a fifth spring, an auxiliary abutting rod and a ball, the auxiliary cylinder is disposed on the support flange in a flat manner and faces the hooping outer plate, the fifth spring is disposed in the auxiliary cylinder, an inner end of the auxiliary abutting rod is inserted into the auxiliary cylinder and connected with the fifth spring, and the ball is disposed at an outer end of the auxiliary abutting rod and rotatably connected with an outer side wall of the hooping outer plate.

Compared with the prior art, the invention at least comprises the following beneficial effects:

the invention provides a high-altitude component wind wave resisting butt joint positioner which mainly comprises a positioning cylinder, a positioning cover plate and a positioning rope, wherein after being installed in a first bolt hole and a second bolt hole, the high-altitude component wind wave resisting butt joint positioner slowly falls on a lower tower along with the upper tower, and then the positioning rope is pulled by a plurality of operators to play a role in auxiliary guiding of the upper tower, so that the lower end of the positioning cylinder is inserted into the second bolt hole, the first bolt hole and the second bolt are ensured to fall and align, the upper tower is butted on the lower tower, and the high-altitude component wind wave resisting butt joint positioner can greatly improve the butt joint working efficiency of the towers, save time and labor and has the effects of safety and tower protection.

Other advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic structural view of the wind and wave resisting butting locator for high-altitude components.

Fig. 2 is a schematic structural diagram of an intercepting mechanism in the wind wave resisting butting positioner of the high-altitude component.

Fig. 3 is a structural top view of the intercepting mechanism in the wind-wave resisting butting locator for the high-altitude component according to the invention.

Fig. 4 is a partial structural schematic view of a fixing assembly in the wind wave resisting butt joint positioner of the high-altitude component.

Fig. 5 is a schematic structural diagram of a fixing assembly in the wind wave resisting butt joint positioner of the high-altitude component.

Fig. 6 is another structural schematic diagram of the intercepting mechanism in the wind-wave resisting docking locator for the high-altitude component according to the invention.

Fig. 7 is another structural top view of the intercepting mechanism in the wind wave resisting butt joint positioner of the high-altitude component.

Fig. 8 is a structural top view of a positioning cover plate in the wind and wave resisting butting positioner for high-altitude components.

Fig. 9 is a structural top view of the fixing assembly in the wind-wave resisting butting locator for the high-altitude component according to the invention.

Fig. 10 is a partial structural schematic view of a fixing assembly in the wind-wave resisting butting locator for the high-altitude component according to the invention.

Wherein, the arrow in fig. 9 indicates the fixing direction of the fixing component to the intercepting seat.

Detailed Description

The present invention is further described in detail below with reference to the drawings and examples so that those skilled in the art can implement the invention with reference to the description.

It will be understood that terms such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

As shown in fig. 1 to 10, the present invention provides a wind wave resisting butt joint locator for a high-altitude structure, comprising: a location section of thick bamboo 1, location apron 2 and location rope 3, location apron 2 sets up the upper end of a location section of thick bamboo 1, the upper end of location rope 3 is connected the inside of a location section of thick bamboo 1.

The working principle of the technical scheme is as follows: the invention provides a high-altitude component wind wave resisting butt joint positioner which mainly comprises a positioning cylinder 1, a positioning cover plate 2 and a positioning rope 3, wherein when two towers are butted, bolt flanges on the two towers need to be aligned, so that bolt holes (first bolt holes 12) on the bolt flanges on the upper part and bolt holes (second bolt holes 13) on the bolt flanges on the lower part correspond one to one, when the high-altitude component wind wave resisting butt joint positioner is used, an operator passes through the first bolt holes 12 at the lower ends of the positioning ropes 3 in the high-altitude component wind wave resisting butt joint positioner, pulls the positioning rope 3 downwards until the positioning cylinder 1 is inserted into the first bolt holes 12, the positioning cover plate 2 is used for limiting the position of the positioning cylinder 1, and then passes through the second bolt holes 13 at the lower ends of the positioning ropes 3;

after the wind wave resisting butt joint positioner for the high-altitude components is installed in the first bolt holes 12 and the second bolt holes 13, the positioning ropes 3 are pulled by a plurality of operators along with the tower slowly falling to the lower tower from the upper tower, so that the auxiliary guiding effect on the upper tower is achieved, the lower end of the positioning cylinder 1 is inserted into the second bolt holes 13, the first bolt holes 12 can be aligned with the second bolt holes, and the butt joint of the upper tower to the lower tower is achieved; and then the wind wave resisting butt joint positioner of the high-altitude component is extracted from the first bolt hole 12 and the second bolt hole 13.

In order to facilitate the insertion of the positioning cylinder 1 in the first bolt hole 12 and the second bolt hole 13, a reinforcing ring seat 11 is designed at the lower end of the positioning cylinder 1, the outer surface of the reinforcing ring seat 11 is arc-shaped, and the outer surface of the positioning cylinder 1 is connected in a smooth transition manner. In this way, the lower end of the positioning cylinder 1 is inserted into the first bolt hole 12 or the second bolt hole 13, and the reinforcing ring seat 11 first contacts the upper end of the first bolt hole 12 or the second bolt hole 13, so that the entire positioning cylinder 1 is introduced into the first bolt hole 12 or the second bolt hole 13.

The beneficial effects of the above technical scheme are that: through the structural design, the invention provides a high-altitude component wind wave resisting butt joint positioner which mainly comprises a positioning cylinder 1, a positioning cover plate 2 and a positioning rope 3, wherein after being installed in a first bolt hole 12 and a second bolt hole 13, the high-altitude component wind wave resisting butt joint positioner slowly falls on a lower tower along with an upper tower, and then a plurality of operators pull the positioning rope 3 to play a role in assisting in guiding the upper tower, so that the lower end of the positioning cylinder 1 is inserted into the second bolt hole 13, the first bolt hole 12 can be aligned with the second bolt, the butt joint of the upper tower on the lower tower is realized, and the high-altitude component wind wave resisting butt joint positioner can greatly improve the butt joint working efficiency of the towers, save time and labor and has the effects of safety and tower protection.

In one embodiment, the positioning cylinder 1 is provided with an interception mechanism, and the upper end of the positioning rope 3 is positioned in the positioning cylinder 1 and connected with the interception mechanism.

The working principle of the technical scheme is as follows: in the above embodiment, the positioning rope 3 is installed in the positioning cylinder 1, when the positioning rope 3 is installed in the first bolt hole 12 and the second bolt hole 13, the lower end of the positioning rope 3 needs to pass through the first bolt hole 12 and the second bolt hole 13, and then the positioning cylinder 1 needs to be extracted from the first bolt hole 12 and the second bolt hole 13 after the upper tower drum is aligned with the lower tower drum, so that the installation steps are complicated, so that an intercepting mechanism is designed in the positioning cylinder 1, after the upper tower drum is aligned with the lower tower drum, an operator can loosen the positioning rope 3 by controlling the designed intercepting mechanism, further extract the positioning rope 3 from the positioning cylinder 1, extract the positioning cylinder 1 from the first bolt hole 12 and the second bolt hole 13, and fix the first bolt hole 12 and the second bolt hole 13 by using bolts.

The beneficial effects of the above technical scheme are that: through the design of the structure, the intercepting mechanism is provided in the embodiment, and is arranged on the positioning cylinder 1, and an operator can use the intercepting mechanism to be detachably connected with the positioning rope 3, so that the operator can conveniently extract the wind and wave resisting butt joint positioner of the high-altitude component from the first bolt hole 12 and the second bolt hole 13.

In one embodiment, the intercepting mechanism includes an intercepting cylinder 101, an intercepting rod 102, an intercepting ring 103, a first spring 104, a plurality of second springs 105, a plurality of intercepting guide wires 106, and a plurality of intercepting top plates 107, the positioning cover plate 2 is provided with a positioning hole 4, the intercepting cylinder 101 is disposed below the positioning cover plate 2 and corresponds to the positioning hole 4, the intercepting rod 102 is disposed in the intercepting cylinder 101, the upper end of the intercepting rod 102 passes through the positioning hole 4, the first spring 104 is disposed on a bottom plate 108 of the intercepting cylinder 101, the upper end of the first spring 104 is connected with the lower end of the intercepting rod 102, the intercepting ring 103 is disposed in the intercepting cylinder 101 and is sleeved on the intercepting rod 102 through a plurality of cross bars 109, the intercepting cylinder 101 is provided with a plurality of openings 110, the bottom of the intercepting top plate 107 is hinged with the bottom of the openings 110, the intercepting top plate 107 is selectively inserted in the openings 110, a limit rod 111 is disposed inside the intercepting top plate 107, the second spring 105 is disposed between the intercepting top plate 107 and the intercepting guide wire 107, the intercepting top plate 107 is connected with the guide wire 107, the guide wire 107 is connected with the lower end of the intercepting top plate 107, and the guide wire 107 is connected with the intercepting top plate 102, and the guide wheel 123 is disposed around the intercepting top plate 107;

the upper end of the positioning rope 3 is connected with an intercepting seat 5, a convex intercepting groove 6 is arranged on the intercepting seat 5, and the intercepting cylinder 101 is selectively connected with the convex intercepting groove 6 through a plurality of intercepting top plates 107.

The working principle of the technical scheme is as follows: in the embodiment, the intercepting mechanism includes an intercepting cylinder 101, an intercepting rod 102, an intercepting ring 103, a first spring 104, a plurality of second springs 105, a plurality of intercepting guide wires 106 and a plurality of intercepting top plates 107, when an operator releases the positioning rope 3 from the positioning cylinder 1, the intercepting rod 102 is pressed by hand, the intercepting rod 102 moves downwards along the positioning hole 4 on the positioning cover plate 2, the lower end of the intercepting rod 102 presses the first spring 104 downwards, the lower end of the intercepting rod 102 pulls the lower end of the intercepting guide wire 106 downwards, the intercepting guide wires 106 move in guide wheels 123 on the intercepting ring 103, the intercepting ring 103 is designed in the intercepting cylinder 101 through a plurality of cross bars 109, the intercepting guide wires 106 approach the intercepting top plates 107 to the intercepting rod 102 in the intercepting cylinder 101, and the second springs 105 are further compressed, the bottom of the intercepting top plate 107 is hinged with the opening 110 of the intercepting cylinder 101, so that the intercepting top plate 107 is pulled out from the opening 110, the upper end of the intercepting top plate 107 is separated from the inner top surface of the convex intercepting groove 6 in the intercepting seat 5, the intercepting seat 5 on the positioning rope 3 is separated from the intercepting mechanism, then the operator releases the intercepting rod 102, the first spring 104 on the bottom plate 108 of the intercepting cylinder 101 resets upwards to jack the intercepting rod 102 upwards, meanwhile, under the action of the second spring 105, the intercepting top plate 107 is pushed towards the opening 110, so that the intercepting top plate 107 enters the opening 110, the limiting rod 111 on the intercepting top plate 107 prevents the intercepting top plate 107 from completely separating from the opening 110, and the intercepting guide wire 106 moves along the guide wheel 123 and then returns to the original state.

The beneficial effects of the above technical scheme are as follows: through the design of the structure, the embodiment provides a specific structure of the intercepting mechanism, the intercepting mechanism comprises an intercepting cylinder 101, an intercepting rod 102, an intercepting ring 103, a first spring 104, a plurality of second springs 105, a plurality of intercepting guide wires 106 and a plurality of intercepting top plates 107, and the intercepting mechanism can be well connected with the convex intercepting groove 6 in the intercepting seat 5, so that an operator can conveniently fix or separate the positioning rope 3, and the operator can conveniently use the high-altitude component wind wave resisting docking positioner to dock a tower cylinder.

In one embodiment, a first bottom groove 112 is formed in the bottom plate 108 of the intercepting cylinder 101, a guide cylinder 113 is connected to the first bottom groove 112, a plurality of guide strip-shaped holes 114 are formed in the guide cylinder 113, the lower end of the intercepting bar 102 is located in the guide cylinder 113 and is connected with a guide block 115, the guide block 115 is slidably connected to the guide strip-shaped holes 114, the first spring 104 is arranged in the guide cylinder 113, the lower end of the first spring 104 is located in the first bottom groove 112, and the upper end of the first spring is connected to the lower end of the intercepting bar 102.

The working principle of the technical scheme is as follows: in the embodiment, the first bottom groove 112 and the guide cylinder 113 are designed, specifically, the guide cylinder 113 is connected to the first bottom groove 112, the guide cylinder 113 is provided with a guide strip-shaped hole 114, the lower end of the intercepting rod 102 is provided with a guide block 115 capable of sliding in the guide strip-shaped hole 114, so that when the intercepting rod 102 is pushed upwards by the first spring 104, the guide block 115 plays a role in limiting the intercepting rod 102, the guide block 115 is prevented from being separated from the guide cylinder 113, the guide cylinder 113 plays a role in guiding and fixing the intercepting rod 102, and the intercepting rod 102 is prevented from deviating in the horizontal direction in the using process, so that the use of other components is influenced.

The beneficial effects of the above technical scheme are that: through the design of the structure, the guide tube 113, the first bottom groove 112, the guide strip-shaped hole 114, the guide block 115 and other structures are provided in the embodiment, so that the guide and fixing effects on the intercepting rod 102 are realized, and the intercepting rod 102 is prevented from deviating in the horizontal direction in the using process, so that the use of other components is further influenced.

In one embodiment, the intercepting mechanism includes an intercepting cylinder 101, an intercepting rod 102, an intercepting sleeve 116, a plurality of third springs 117, a plurality of fourth springs 122, a plurality of intercepting guide wires 106 and a plurality of intercepting top plates 107, the positioning cover plate is provided with a positioning hole, the intercepting cylinder is arranged below the positioning cover plate and corresponds to the positioning hole, the intercepting rod is arranged in the intercepting cylinder, the upper end of the intercepting rod passes through the positioning hole, the upper end of the intercepting rod 102 is provided with a flat rod 121, the intercepting sleeve 116 is sleeved on the intercepting rod 102, the intercepting cylinder is provided with a plurality of openings, the bottom of the intercepting top plate is hinged to the bottom of the openings, the intercepting top plate is selectively inserted in the openings, a limiting rod is arranged on the inner side of the intercepting top plate, the third springs 117 are arranged between the intercepting top plate and the intercepting sleeve, the intercepting guide wires 106 are sleeved in the third springs 117, one end of the guide wires 106 is connected to the intercepting top plate 107, the other end of the intercepting sleeve 116 is connected to the intercepting sleeve, the plurality of the fourth springs 122 are uniformly distributed between the intercepting cylinder 101 and the intercepting sleeve 116, and the third springs are arranged crosswise to the intercepting top plate 116;

the upper end of location rope is connected with interception seat 5, be provided with protruding type interception groove 6 on the interception seat 5, an interception section of thick bamboo is through a plurality of interception roof with protruding type interception groove is connected selectively.

The working principle of the technical scheme is as follows: in the embodiment, another structure of the intercepting mechanism is provided, the intercepting mechanism includes an intercepting cylinder 101, an intercepting rod 102, an intercepting sleeve 116, a plurality of third springs 117, a plurality of fourth springs 122, a plurality of intercepting guide wires 106, and a plurality of intercepting top plates 107, when an operator releases the positioning rope 3 from the positioning cylinder 1, the operator rotates a flat rod 121 at the upper end of the intercepting rod 102 by hand, the intercepting rod 102 is driven to rotate in the intercepting cylinder 101, and then the intercepting sleeve 116 on the intercepting cylinder 101 pulls the third springs 117 and the fourth springs 122 to rotate together with the intercepting rod 102, wherein the third springs 117 are compression springs, the fourth springs 122 are tension springs, that is, the third springs 117 are compression springs to press the intercepting top plates 107 outwards, and the fourth springs 122 pull the intercepting sleeve 116 and the inner wall of the intercepting cylinder 101 inwards;

when the intercepting sleeve 116 rotates along with the intercepting rod 102, the intercepting sleeve 116 drives the intercepting guide wire 106 to rotate together, so that the intercepting guide wire 106 pulls the intercepting top plate 107 out of the opening 110 in the intercepting cylinder 101, the intercepting top plate approaches the intercepting rod 102 in the intercepting cylinder 101, the third spring 117 is further compressed, the bottom of the intercepting top plate 107 is hinged with the opening 110 in the intercepting cylinder 101, the upper end of the intercepting top plate 107 is separated from the inner top surface of the convex intercepting groove 6 in the intercepting seat 5, the intercepting seat 5 on the positioning rope 3 is separated from the intercepting mechanism, then an operator releases the flat rod 121 on the intercepting rod 102, the intercepting rod 102 rotates to the original position under the action of the third springs 117 and the fourth springs 122, so that the intercepting top plate 107 is pushed into the opening 110 by the third spring 117, the intercepting top plate 107 enters the opening 110, and the limiting rod 111 on the intercepting top plate 107 prevents the intercepting top plate 107 from completely separating from the opening 110, and the intercepting guide wire 106 returns to the original state.

The beneficial effects of the above technical scheme are that: through the design of the structure, another specific structure of the intercepting mechanism is provided in the embodiment, the intercepting mechanism comprises an intercepting cylinder 101, an intercepting rod 102, an intercepting sleeve 116, a plurality of third springs 117, a plurality of fourth springs 122, a plurality of intercepting guide wires 106 and a plurality of intercepting top plates 107, an operator can rotate the horizontal rod 121 to rotate the intercepting rod 102, so that the guiding and fixing effects on the intercepting rod 102 are realized, and the intercepting rod 102 is prevented from deviating in the horizontal direction in the using process to influence the use of other components.

In one embodiment, a second bottom groove 119 in a convex shape is formed in the bottom plate 108 of the intercepting cylinder 101, the lower end of the intercepting rod 102 is connected to the second bottom groove 119 through a rotating plate 120, a torsion spring 118 is arranged in the second bottom groove 119, the lower end of the intercepting rod is connected to the torsion spring 118, and a limiting block 7 corresponding to the horizontal rod 121 is arranged on the positioning cover plate 2.

The working principle of the technical scheme is as follows: in this embodiment, structures such as the second bottom groove 119, the torsion spring 118, and the limiting block 7 are designed, specifically, the torsion spring 118 is designed in the second bottom groove 119, and the lower end of the intercepting rod 102 is connected to the torsion spring 118, so that when an operator rotates the intercepting rod 102 by using the horizontal rod 121, the limiting block 7 on the positioning cover plate 2 can limit the horizontal rod 121, and the horizontal rod 121 is prevented from being rotated too much by the operator, that is, the intercepting rod 102 is rotated by a certain angle to pull the intercepting top plate 107; when the operator releases the horizontal rod 121, the intercepting rod 102 is driven to the original position by the torsion spring 118 under the action of the torsion spring 118, so that the intercepting rod 102 is reset, and the intercepting top plate 107 is reset into the opening 110.

The beneficial effects of the above technical scheme are that: through the design of the above structure, the second bottom groove 119, the torsion spring 118, the limit block 7 and other structures are provided in this embodiment, when the operator loosens the horizontal rod 121, under the action of the torsion spring 118, the intercepting rod 102 is driven to the original position by the torsion spring 118, so that the intercepting rod 102 is reset, and the intercepting top plate 107 is reset into the opening 110.

In one embodiment, the device further comprises a fixing component corresponding to the intercepting seat 5, the fixing component is connected with the positioning cover plate 2, an inverted T-shaped groove 8 and an inverted L-shaped rotating groove 9 are arranged on the positioning cover plate 2, the opening direction of the inverted T-shaped groove 8 is located on the upper surface of the positioning cover plate 2, the T-shaped groove 8 is communicated with the rotating groove 9, and the rotating groove 9 is arranged coaxially with the positioning hole 4;

the fixing assembly comprises a support flange 201, a T-shaped rod 202, a gear 203, a rotary drum 204, a fluted disc 205, a rotary disc 206, a plurality of auxiliary mechanisms, a plurality of transmission mechanisms and a plurality of tightening plates, wherein the support flange 201 is arranged on the inner wall of the positioning cylinder 101, the interception seat 5 is inserted into the support flange 201, the gear 203 is arranged in the inverted T-shaped groove 8, the T-shaped rod 202 is inserted into the inverted T-shaped groove 8 and connected with the gear 203, the fluted disc 205 is arranged in the rotary groove 9 and meshed with the gear 203, the upper end of the rotary drum 204 is inserted into the rotary groove 9 and connected with the fluted disc 205, the rotary drum 206 is arranged at the lower end of the rotary drum 204, the transmission mechanisms are all arranged on the inner side wall of the rotary drum 206, the tightening plates are arranged on the support flange 201 and movably connected with the transmission mechanisms, and the tightening plates are used for selectively tightening the interception seat, and the auxiliary mechanisms are arranged on the support flange 201 and abut against the tightening plates.

The working principle of the technical scheme is as follows: the fixing component corresponding to the intercepting seat 5 is provided in the embodiment, and the fixing component is matched with the intercepting mechanism for use, so that the intercepting seat 5 can be subjected to auxiliary fixing when the intercepting seat 5 is fixed by the intercepting mechanism, and the stability between the positioning cylinder 1 and the positioning rope 3 is improved; specifically, the fixing assembly includes a supporting flange 201, a T-shaped rod 202, a gear 203, a rotating drum 204, a fluted disc 205, a rotating disc 206, a plurality of auxiliary mechanisms, a plurality of transmission mechanisms and a plurality of tightening plates, an operator rotates the T-shaped rod 202 according to an arrow direction of fig. 9, then the T-shaped rod 202 drives the gear 203 in the inverted T-shaped groove 8 in the positioning cover plate 2 to rotate, the gear 203 further drives the fluted disc 205 in the rotating groove 9 to also rotate, so the fluted disc 205 further drives the rotating drum 204 to rotate, further the rotating drum 204 drives the rotating disc 206 to rotate, then the rotating disc 206 drives the tightening plates to the intercepting seats 5 through the transmission mechanisms, and then the plurality of tightening plates fix the intercepting seats 5, wherein the auxiliary mechanisms guide and fix the tightening plates so that the tightening plates can be supported to fix the intercepting seats 5;

when the intercepting seat 5 needs to be separated from the positioning cylinder 1, an operator operates the intercepting mechanism again to separate the intercepting mechanism from the convex intercepting groove 6 of the intercepting seat 5, then the T-shaped rod 202 is rotated in the opposite direction of the arrow in fig. 9, and then the tightening plate is separated from the intercepting seat, so that the operator extracts the positioning rope 3 from the positioning cylinder 1.

The beneficial effects of the above technical scheme are that: through the design of the above structure, the present embodiment provides a structure of a fixing assembly, and the fixing assembly includes a support flange 201, a T-shaped rod 202, a gear 203, a rotary drum 204, a fluted disc 205, a rotary disc 206, a plurality of auxiliary mechanisms, a plurality of transmission mechanisms, and a plurality of tightening plates, and is used with the intercepting seat 5, so as to realize an auxiliary fixing effect on the intercepting seat 5, and increase the stability between the positioning rope 3 and the positioning cylinder 1.

In one embodiment, the tightening plate comprises a vertical rod 207, a tightening outer plate 208 and a tightening inner plate 209, the vertical rod 207 is vertically arranged on the support flange 201, the tightening outer plate 208 is sleeved on the vertical rod 207, the tightening inner plate 209 is connected to the inner side wall of the tightening outer plate 208, and the tightening inner plate 209 is used for tightening the interception base.

The working principle of the technical scheme is as follows: the board of cramping in this embodiment includes vertical pole 207, cramps planking 208 and cramps inner panel 209, and drive mechanism releases to cramp planking 208 and uses vertical pole 207 to rotate as the axis, then cramps planking 208 and drives to cramp inner panel 209 and be close to interception seat 5, and then a plurality of planking 209 of cramping will intercept seat 5 and hold tightly, has realized the fixed action of cramping the board to interception seat 5, wherein, the interior planking 209 of cramping can select for use rubber material.

The beneficial effects of the above technical scheme are as follows: through the design of above-mentioned structure, provided the concrete structure of banding board in this embodiment, this banding board includes vertical pole 207, bands planking 208 and bands inner panel 209 tightly, can realize realizing better fixed action to interception seat 5 with the interception mechanism to the cooperation.

In one embodiment, the transmission mechanism includes a first transmission block 210, a second transmission block 211, and a transmission rod 212, the first transmission block 210 is disposed on an inner sidewall of the turntable 206, the second transmission block 211 is disposed on the exterior plate 208 and close to the vertical rod 207, an outer end of the transmission rod 212 is movably connected to the first transmission block 210, and an inner end of the transmission rod 212 is movably connected to the second transmission block 211.

The working principle of the technical scheme is as follows: in this embodiment, the transmission mechanism includes a first transmission block 210, a second transmission block 211 and a transmission rod 212, when the turntable 206 rotates in the direction of the arrow in fig. 9, the turntable 206 drives the first transmission block 210 to move, the first transmission block 210 drives the transmission rod 212 to move, the transmission rod 212 further drives the hooping outer plate 208 to rotate by using the vertical rod 207 as an axis, and the hooping outer plate 208 drives the hooping inner plate 209 to fix the intercepting seat 5.

The beneficial effects of the above technical scheme are as follows: through the design of the above structure, the present embodiment provides a specific mechanism of the transmission mechanism, which includes the first transmission block 210, the second transmission block 211, and the transmission rod 212, so as to conveniently implement the connection between the turntable 206 and the tightening plate.

In one embodiment, the auxiliary mechanism includes an auxiliary cylinder 213, a fifth spring 214, an auxiliary rod 215, and a ball 216, the auxiliary cylinder 213 is flatly disposed on the support flange 201 and faces the exterior tightening plate 208, the fifth spring 214 is disposed in the auxiliary cylinder 213, an inner end of the auxiliary rod 215 is inserted into the auxiliary cylinder 213 and connected to the fifth spring 214, and the ball 216 is disposed at an outer end of the auxiliary rod 215 and rotatably connected to an outer sidewall of the exterior tightening plate 208.

The working principle of the technical scheme is as follows: in the embodiment, the auxiliary mechanism includes an auxiliary cylinder 213, a fifth spring 214, an auxiliary rod 215 and a ball 216, the auxiliary mechanism is toward one plate surface of the hooping outer plate 208, the auxiliary cylinder 213 in the auxiliary mechanism is designed on the supporting flange 201, the fifth spring 214 in the auxiliary cylinder 213 butts against the auxiliary rod 215, and further the ball 216 on the auxiliary rod 215, when the hooping outer plate 208 rotates by the vertical rod 207, the hooping outer plate 208 is rotationally connected along the ball 216, and the auxiliary mechanism plays an auxiliary guiding role for the hooping outer plate 208;

as shown in fig. 9 and 10, since the auxiliary mechanism can be pressed against the tightening outer plate 208, when the turntable 206 pulls the tightening outer plate 208 via the transmission mechanism to reverse the direction of the arrow in fig. 9, the tightening outer plate 208 can rotate the outer side of the ball 216.

The beneficial effects of the above technical scheme are that: through the design of the above structure, the present embodiment provides a specific structure of the auxiliary mechanism, and the auxiliary mechanism includes the auxiliary cylinder 213, the fifth spring 214, the auxiliary rod 215 and the ball 216, so as to facilitate the movement of the tightening plate along the auxiliary mechanism, and provide the operation efficiency of the fixing assembly.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting of the invention.

In the present invention, unless otherwise explicitly stated or limited, the terms "mounted," "connected," "fixed," and the like are to be construed broadly, e.g., as being permanently connected, detachably connected, or integral; may be mechanically coupled, may be electrically coupled or may be in communication with each other; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

While embodiments of the invention have been disclosed above, it is not limited to the applications set forth in the description and the embodiments, which are fully applicable in various fields of endeavor to which the invention pertains, and further modifications may readily be made by those skilled in the art, it being understood that the invention is not limited to the details shown and described herein without departing from the general concept defined by the appended claims and their equivalents.

Claims (8)

1. The utility model provides a high altitude construction member anti-wind and wave butt joint locator which characterized in that includes:

the positioning device comprises a positioning barrel (1), a positioning cover plate (2) and a positioning rope (3), wherein the positioning cover plate (2) is arranged at the upper end of the positioning barrel (1), and the upper end of the positioning rope (3) is connected to the inside of the positioning barrel (1); the positioning cylinder (1) is provided with an intercepting mechanism, and the upper end of the positioning rope (3) is positioned in the positioning cylinder (1) and is connected with the intercepting mechanism;

the intercepting mechanism comprises an intercepting cylinder (101), an intercepting rod (102), an intercepting ring (103), a first spring (104), a plurality of second springs (105), a plurality of intercepting guide wires (106) and a plurality of intercepting top plates (107), a positioning hole (4) is formed in the positioning cover plate (2), the intercepting cylinder (101) is arranged below the positioning cover plate (2) and corresponds to the positioning hole (4), the intercepting rod (102) is arranged in the intercepting cylinder (101), the upper end of the intercepting rod (102) penetrates through the positioning hole (4), the first spring (104) is arranged on a bottom plate (108) of the intercepting cylinder (101), the upper end of the first spring (104) is connected with the lower end of the intercepting rod (102), the intercepting ring (103) is arranged in the intercepting cylinder (101) through a plurality of cross rods (109) and sleeved on the intercepting rod (102), a plurality of openings (110) are formed in the intercepting cylinder (101), the bottom of the top plate (107) is hinged with the bottom of the opening (110), the intercepting ring (107) is selectively arranged between the opening of the intercepting ring (107) and the second spring (107), and the limiting top plate (111) is arranged in the intercepting cylinder (101), a guide wheel (123) is arranged on the intercepting ring (103), the intercepting guide wire (106) is wound on the guide wheel (123), one end of the intercepting guide wire (106) is connected with the intercepting top plate (107), and the other end of the intercepting guide wire is connected with the lower end of the intercepting rod (102);

the upper end of location rope (3) is connected with interception seat (5), be provided with protruding type interception groove (6) on interception seat (5), interception section of thick bamboo (101) are through a plurality of interception roof (107) with protruding type interception groove (6) are connected selectively.

2. The high-altitude component wind and wave resisting docking positioner as claimed in claim 1, wherein a first bottom groove (112) is formed in a bottom plate (108) of the intercepting cylinder (101), a guide cylinder (113) is connected to the first bottom groove (112), a plurality of guide strip-shaped holes (114) are formed in the guide cylinder (113), a lower end of the intercepting rod (102) is located in the guide cylinder (113) and connected with a guide block (115), the guide block (115) is slidably connected in the guide strip-shaped holes (114), the first spring (104) is arranged in the guide cylinder (113), a lower end of the first spring (104) is located in the first bottom groove (112), and an upper end of the first spring is connected with a lower end of the intercepting rod (102).

3. The high-altitude-member wind-wave-resistant docking positioner as claimed in claim 1, wherein the intercepting mechanism comprises an intercepting cylinder (101), an intercepting rod (102), an intercepting sleeve (116), a plurality of third springs (117), a plurality of fourth springs (122), a plurality of intercepting guide wires (106) and a plurality of intercepting top plates (107), a positioning hole is formed in the positioning cover plate, the intercepting cylinder is arranged below the positioning cover plate and corresponds to the positioning hole, the intercepting rod is arranged in the intercepting cylinder, the upper end of the intercepting rod penetrates through the positioning hole, a flat rod (121) is arranged at the upper end of the intercepting rod (102), the intercepting sleeve (116) is sleeved on the intercepting rod (102), a plurality of openings are formed in the intercepting cylinder, the bottom of the intercepting top plate is hinged to the bottom of the openings, the intercepting top plates are selectively inserted in the openings, limit rods are arranged on the inner sides of the intercepting top plates, the third springs (117) are arranged between the intercepting top plates and the intercepting sleeve, the intercepting guide wires (106) are sleeved in the third springs (117), one end of the intercepting guide wires (106) is connected to the fourth springs (107), and the fourth springs (116) are arranged between the intercepting sleeve (116), and the intercepting sleeve (116) and the fourth springs (116) is uniformly distributed between the intercepting sleeve;

the upper end of the positioning rope is connected with an intercepting seat (5), a convex intercepting groove (6) is formed in the intercepting seat (5), and the intercepting cylinder is selectively connected with the convex intercepting groove through a plurality of intercepting top plates.

4. The high-altitude component wind and wave resisting butt joint positioner according to claim 3, wherein a second bottom groove (119) in a convex shape is formed in a bottom plate (108) of the intercepting cylinder (101), the lower end of the intercepting rod (102) is connected into the second bottom groove (119) through a rotating plate (120), a torsion spring (118) is arranged in the second bottom groove (119), the lower end of the intercepting rod is connected with the torsion spring (118), and a limiting block (7) corresponding to the horizontal rod (121) is arranged on the positioning cover plate (2).

5. The high-altitude component wind and wave resisting butt joint positioner according to any one of claims 1-4, further comprising a fixing component corresponding to the intercepting seat (5), the fixing component is connected with the positioning cover plate (2), an inverted T-shaped groove (8) and an inverted L-shaped rotating groove (9) are arranged on the positioning cover plate (2), the opening direction of the inverted T-shaped groove (8) is located on the upper surface of the positioning cover plate (2), the T-shaped groove (8) is communicated with the rotating groove (9), and the rotating groove (9) is coaxially arranged with the positioning hole (4);

the fixing assembly comprises a supporting flange (201), a T-shaped rod (202), a gear (203), a rotating drum (204), a fluted disc (205), a rotating disc (206), a plurality of auxiliary mechanisms, a plurality of transmission mechanisms and a plurality of tightening plates, wherein the supporting flange (201) is arranged on the inner wall of the positioning drum (1), the intercepting seats (5) are inserted into the supporting flange (201), the gear (203) is arranged in the inverted T-shaped groove (8), the T-shaped rod (202) is inserted into the inverted T-shaped groove (8) and connected with the gear (203), the fluted disc (205) is arranged in the rotating groove (9) and meshed with the gear (203), the upper end of the rotating drum (204) is inserted into the rotating groove (9) and connected with the fluted disc (205), the rotating disc (206) is arranged at the lower end of the rotating drum (204), the plurality of transmission mechanisms are all arranged on the inner side wall of the rotating drum (206), the tightening plates are arranged on the supporting flange (201) and connected with the transmission mechanisms and are used for selectively tightening the plurality of the intercepting and tightening plates which are arranged on the supporting flange (201).

6. The high-altitude-member wind-wave-resistant docking locator according to claim 5, wherein the tightening plate comprises a vertical rod (207), a tightening outer plate (208) and a tightening inner plate (209), the vertical rod (207) is vertically arranged on the support flange (201), the tightening outer plate (208) is sleeved on the vertical rod (207), the tightening inner plate (209) is connected to the inner side wall of the tightening outer plate (208), and the tightening inner plate (209) is used for tightening the intercepting seat (5).

7. The high-altitude-member wind-wave-resistant docking positioner as claimed in claim 6, wherein the transmission mechanism comprises a first transmission block (210), a second transmission block (211) and a transmission rod (212), the first transmission block (210) is arranged on the inner side wall of the turntable (206), the second transmission block (211) is arranged on the hooping outer plate (208) and close to the vertical rod (207), the outer end of the transmission rod (212) is movably connected with the first transmission block (210), and the inner end of the transmission rod is movably connected with the second transmission block (211).

8. The high-altitude-member wind-wave-resistant docking positioner as claimed in claim 6, wherein the auxiliary mechanism comprises an auxiliary cylinder (213), a fifth spring (214), an auxiliary resisting rod (215) and a ball (216), the auxiliary cylinder (213) is flatly arranged on the support flange (201) and faces the hooping outer plate (208), the fifth spring (214) is arranged in the auxiliary cylinder (213), the inner end of the auxiliary resisting rod (215) is inserted in the auxiliary cylinder (213) and connected with the fifth spring (214), and the ball (216) is arranged at the outer end of the auxiliary resisting rod (215) and rotatably connected with the outer side wall of the hooping outer plate (208).

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