CN111917093B - Passive type ultralow-energy-consumption building roof lightning grounding installation clamp and use method thereof - Google Patents

Abstract

The invention discloses a passive ultralow-energy-consumption building roof lightning grounding installation clamp and a use method thereof, and belongs to the technical field of metal roof lightning protection belt installation. The roof clamping fixture is provided with the clamping assembly and the supporting assembly, the clamping assembly comprises a fixing part, a moving part and an adjusting part, the fixing part and the moving part are connected into a whole through the adjusting part, the adjusting part is continuously adjusted to clamp a roof to achieve the effect of fixing and installing the whole fixture without damaging the roof, the supporting assembly comprises a telescopic part, a positioning part, a supporting rod, a positioning block and a connecting unit, the position of the positioning block is adjusted to enable the positioning block to be matched with a corresponding positioning groove I on the positioning part, the telescopic part can change in length in the process, the connecting unit is rotated to the optimal angle to be connected with a lightning protection belt through the change in length, the adjusting capacity and the adaptability of the fixture are improved, and potential safety hazards in the prior art are eliminated.

Description

Passive type ultralow-energy-consumption building roof lightning grounding installation clamp and use method thereof

Technical Field

The invention relates to the technical field of installation of a metal roof lightning protection belt, in particular to a passive ultralow-energy-consumption building roof lightning protection grounding installation clamp and a use method thereof.

Background

Because the steel structure factory building and the steel structure workshop are widely popularized and widely applied in the field of buildings at present, and passive low-energy-consumption industrial buildings are researched and built at home, the color steel plate roof becomes the first choice in the whole steel structure metal roof system. In industry factory building metal roofing maintenance system, lightning grounding's construction has been the leading factor of puzzlement construction unit and design unit, and the roof boarding neither can punch, also can not weld, more can not lay lightning-arrest mound, often worries about because the unable installation of roofing lightning grounding system support is with fixed. Simultaneously, the lightning-arrest support in case handle not well will cause the various steel sheet roofing in steel construction workshop to leak water, if be the low energy consumption industry factory building of passive form, still can influence the loss of inside energy consumption, leaves serious quality hidden danger for the later stage. Secondly, when the lightning protection belt is installed, a mechanism connected with the lightning protection belt cannot adapt to the lightning protection belt at an optimal angle, so that the lightning protection belt cannot be accurately and stably installed, and great potential safety hazards exist.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides a passive ultralow-energy-consumption building roof lightning grounding protection mounting clamp and a using method thereof.

In order to achieve the purpose, the invention adopts the following technical scheme:

passive ultralow energy consumption building roofing lightning grounding's sectional fixture includes:

the clamping assembly comprises a fixed part, a moving part and an adjusting part, and the fixed part is connected with the moving part through the adjusting part and is used for being connected with the roof;

supporting component, supporting component includes extensible member and setting element, the inside of extensible member is equipped with the cavity, extensible member fixed mounting is on the mounting, the installing port with self cavity intercommunication is seted up at the top of extensible member, it is connected with the bracing piece to rotate in the installing port, the one end of bracing piece extends to in the cavity and fixedly connected with locating piece, the other end of bracing piece extends to the outside of extensible member and is connected with the linkage unit with lightning-arrest area adaptation, setting element fixed connection is in the cavity bottom of extensible member, set up constant head tank one with locating piece looks adaptation on the setting element.

Preferably, the telescopic member includes a fixed portion and a movable portion, the fixed portion is fixedly mounted on the fixed member, a compression spring is disposed inside the fixed portion, the movable portion is movably connected inside the fixed portion and is fixedly connected with the compression spring, and the mounting opening is disposed at the top end of the movable portion.

Specifically, in the in-service use process, when the locating piece needs to be adjusted to be matched with the corresponding locating groove one on the locating piece, the supporting rod, the connecting unit and the moving part move together to act on the compression spring, so that the locating piece is separated from the locating groove one, when the locating piece rotates to a proper position and is matched with the corresponding locating groove one under the action of the compression spring, the locating piece is locked at the position.

Preferably, the fixed part is connected with a limit part for pressing the movable part in a matching manner.

Specifically, behind locating piece and a constant head tank adaptation that corresponds, utilize the stop part will compress tightly the removal portion and prevent that the deflection of bracing piece from causing unable accurate installation when the lightning-arrest area of rear anchor clamps installation from appearing, and then guarantee the stability of its security and device.

Preferably, one side surface of the positioning piece, which is opposite to the positioning block, is an arc-shaped structural surface, the first positioning grooves are provided with a plurality of groups and are uniformly distributed on the arc-shaped structural surface, and when the positioning block is matched with any one first positioning groove, the positions of the lightning protection belts are all at the same height.

Particularly, when the positioning groove I corresponding to the positioning block can be matched through the arc-shaped structural surface of the positioning piece, the length of the positioning groove I is compensated, the lightning protection belt is guaranteed to be always at the same height when the positioning block is adjusted, and the influence of angle change on a structure connected with the lightning protection belt is eliminated.

Preferably, the fixed part is of a T-shaped structure, one side of the moving part, opposite to the fixed part, is provided with a positioning part matched with the roof structure, and the adjusting part is an adjusting bolt.

Specifically, adjust the moving member through the regulating part and remove to the mounting, realize the sectional fixture of no destruction roofing when the adaptation of locating part and the vertical seam blank pressing of roofing.

Preferably, the connecting unit comprises a connecting piece, a moving piece and a guide wheel, the connecting piece is fixedly connected to the top end of the supporting rod, the connecting piece is provided with a guide groove, the upper side wall of the guide groove is provided with a second positioning groove, the moving piece is provided with a bulge in sliding fit with the guide groove, the guide wheel is rotatably connected to the bulge, the guide wheel is matched with the second positioning groove, and one side of the moving piece, opposite to the lightning protection belt, is provided with an elastic compression structure.

Preferably, the elastic compression structure comprises an elastic expansion part, an installation part and a guide part, one end of the elastic expansion part is fixedly connected to the moving part, the other end of the elastic expansion part is fixedly connected with the installation part, the installation part is provided with an installation hole, the guide part is rotatably connected in the installation hole, and the surface of the guide part is matched with the surface of the lightning protection belt.

The invention also discloses a use method of the passive ultra-low energy consumption building roof lightning grounding prevention mounting fixture, which comprises the following steps:

A. firstly, connecting the fixed part and the moving part through the adjusting part, and adjusting the adjusting part to move the moving part to one side close to the fixed part until the positioning part on the moving part is matched with the longitudinal seam of the roof;

B. according to the installation position of the lightning protection belt, firstly, the connecting piece is pulled to enable the supporting rod, the positioning block and the moving part to move upwards at the same time, the positioning block is separated from the positioning groove I, then, a proper angle is formed between the adjusting connecting piece and the moving part, the angle is the optimal connection angle, and when the connecting piece is loosened, the connecting piece, the moving part, the positioning block and the supporting rod move downwards together under the action of the compression spring, so that the positioning block is matched with the corresponding positioning groove I, and then, the moving part is pressed tightly through the limiting part;

C. place the moving part on lightning-arrest area, push down the moving part afterwards, the together elastic expansion portion that compresses of guide part and installation department simultaneously, insert the guide way until protruding one end in, the back promotes the moving part, and guide wheel and guide part move along guide way and lightning-arrest area respectively simultaneously, until constant head tank two and guide wheel adaptation, accomplish the installation work promptly.

Compared with the prior art, the invention has the following beneficial effects:

1. the clamping assembly and the supporting assembly are arranged, the clamping assembly comprises a fixing part, a moving part and an adjusting part, the fixing part and the moving part are connected into a whole through the adjusting part, the adjusting part is continuously adjusted to clamp the whole roof, the fixed installation effect that the whole roof of the clamp is not damaged is achieved, the supporting assembly comprises a telescopic part, a positioning part, a supporting rod, a positioning block and a connecting unit, the position of the positioning block is adjusted to enable the positioning groove I corresponding to the positioning part to be matched, the telescopic part can change in length in the process, the connecting unit is rotated to the optimal angle to be connected with the lightning protection belt through the change of the length, the adjusting capacity and the adaptive capacity of the clamp are improved, and potential safety hazards in the prior art are eliminated.

2. The telescopic piece comprises a fixing part, a moving part, a compression spring and a limiting part, wherein the moving part is movably arranged with the fixing part through the compression spring, the positioning block and the positioning groove I can be separated through the compression spring, and can be reset under the action of the compression spring to realize the matching of the positioning block and the positioning groove I after moving to a proper angle, and then the moving part is locked at the position by utilizing the limiting part, so that the deflection of a connecting unit, the positioning block and a supporting rod at the position caused by shaking during the subsequent installation of the lightning protection belt is prevented, and the reliability and the safety of the clamp are further ensured.

3. According to the positioning device, one side face of the positioning piece, which is opposite to the positioning block, is an arc-shaped structural surface, the positioning grooves I on the arc-shaped structural surface are matched with the positioning blocks at different angles, and the arc-shaped structural surface can enable the positions of the lightning protection belts to be at the same height when the positioning blocks are matched with any one positioning groove I, so that the influence of insufficient length of a connecting unit and the lightning protection belts caused by angle change is eliminated.

4. The connecting unit comprises a connecting piece, a guide groove, a second positioning groove, a moving part, a bulge, a guide wheel and an elastic pressing structure, the bulge on the moving part is inserted into the guide groove and moves towards the inside of the guide groove through the guide wheel, when the guide wheel moves to the second positioning groove, the elastic pressing structure pushes the moving part and the guide wheel to move towards the second positioning groove, and finally adaptation is achieved, a good fixing effect is achieved, the mounting efficiency is greatly improved, and meanwhile the reliability of connection can be guaranteed.

5. The elastic compression structure comprises an elastic telescopic part, an installation part and a guide part, the installation part and the moving part are connected into a whole by the elastic telescopic part to provide power for the guide wheel to move into the second positioning groove in the later period, and meanwhile, the guide part is matched with the surface structure of the lightning protection belt due to the surface, so that convenience is provided for pushing the moving part.

Drawings

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

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

fig. 3 is a sectional view taken along the direction B in fig. 2.

In the figure: 1. a fixing member; 2. a moving member; 21. a positioning part; 3. an adjustment member; 4. a telescoping member; 41. an installation port; 42. a fixed part; 43. a moving part; 44. a compression spring; 45. a limiting part; 5. a positioning member; 51. positioning a first groove; 6. a support bar; 7. positioning blocks; 8. a connecting member; 81. a guide groove; 82. positioning a second groove; 9. a guide wheel; 10. a movable member; 101. an elastic expansion part; 102. an installation part; 103. a guide portion.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Example 1:

as shown in fig. 1 to 3, the passive mounting fixture for lightning protection and grounding of the building roof with ultra-low energy consumption comprises:

clamping assembly, clamping assembly include mounting 1, moving member 2 and regulating part 3, and mounting 1 is connected with moving member 2 through regulating part 3 and is used for being connected with the roofing, specifically, mounting 1 is "T" font structure, and one side of the relative mounting 1 of moving member 2 is equipped with the location portion 21 with roofing structure adaptation, and regulating part 3 is adjusting bolt. The fixed part 1 and the moving part 2 are connected into a whole through the adjusting part 3, and the adjusting part 3 is continuously adjusted to ensure that the moving part 2 continuously moves to one side close to the fixed part 1, finally the roof is clamped to play a role in fixing and installing the whole clamp without damaging the roof,

supporting component, supporting component includes extensible member 4 and setting element 5, the inside of extensible member 4 is equipped with the cavity, 4 fixed mounting at the top of mounting 1 of extensible member, installing port 41 with self cavity intercommunication is seted up at the top of extensible member 4, it is connected with bracing piece 6 to rotate through the round pin axle in the installing port 41, the one end of bracing piece 6 extends to in the cavity and fixedly connected with locating piece 7, the other end of bracing piece 6 extends to the outside of extensible member 4 and is connected with and takes the linkage unit of adaptation with lightning-arrest, 5 fixed connection of setting element is in the cavity bottom of extensible member 4, set up a constant head tank 51 with 7 looks adaptations of locating piece on the setting element 5.

Make through the position of adjustment locating piece 7 with the constant head tank 51 adaptation that corresponds on the setting element 5, length change can take place for in-process extensible member 4, utilizes the change of length to be connected bracing piece, locating piece and linkage unit integral rotation to best angle and then through linkage unit and lightning-arrest area, improves the regulating power and the adaptability of anchor clamps, eliminates the potential safety hazard among the prior art.

The telescopic member 4 comprises a fixed part 42 and a movable part 43, the fixed part 42 is fixedly arranged on the fixed member 1, a compression spring 44 is arranged inside the fixed part 42, the movable part 43 is movably connected inside the fixed part 42 and fixedly connected with the compression spring 44, and the mounting port 41 is arranged at the top end of the movable part 43.

Specifically, in actual operation, when the deflection angle of the positioning block 7 needs to be adjusted, the connecting unit is pulled to enable the supporting rod 6, the positioning block 7 and the moving part 43 to move upwards at the same time, the positioning block 7 is separated from the first positioning groove 51, then an appropriate angle is formed between the adjusting connecting unit and the moving part 43, and when the connecting unit is loosened, the connecting unit, the moving part 43, the positioning block 7 and the supporting rod 6 move downwards at the same time to enable the positioning block 7 to be matched with the corresponding first positioning groove 51, and at the moment, the connecting unit is connected with the lightning protection belt at an optimal angle, so that potential safety hazards in the prior art are eliminated.

The fixing portion 42 is screwed with a limiting portion 45 for pressing the moving portion 43, and the limiting portion 45 is a screw. After the optimal connection angle of the connection unit is adjusted, the moving part 43 is pressed tightly at the position by the limiting part 45, so that the connection unit of the clamp is prevented from deflecting due to the fact that the lightning protection belt is installed subsequently, and the connection reliability and safety are guaranteed.

One side face of the positioning piece 5, which corresponds to the positioning block 7, is an arc-shaped structural face, the first positioning grooves 51 are provided with a plurality of groups and are uniformly distributed on the arc-shaped structural face, and when the positioning block 7 is matched with any one first positioning groove 51, the positions of the lightning protection belts are all at the same height. The influence of insufficient length of the connecting unit and the lightning protection belt caused by angle change is eliminated.

The linkage unit includes connecting piece 8, moving part 10 and leading wheel 9, 8 fixed connection of connecting piece are on the top of bracing piece 6, the guide way 81 has been seted up on the connecting piece 8, the constant head tank two 82 of arc structure has been seted up on the last lateral wall of guide way 81, moving part 10 is "nearly" font structure, be equipped with on the moving part 10 with guide way 81 sliding fit protruding, it is connected with leading wheel 9 to rotate on the arch, leading wheel 9 and two 82 looks adaptations of constant head tank, one side in moving part 10 relative lightning protection area is equipped with the elasticity compact structure. Place moving part 10 on lightning-arrest area, push down moving part 10 afterwards, elasticity compact structure is hindered the shrink, inject the guide way 81 until protruding one end in, and through leading wheel 9 to the inside removal of guide way 81, remove to constant head tank two 81 departments when leading wheel 9, elasticity compact structure will promote moving part 10 and leading wheel 9 and remove final realization adaptation to constant head tank two 82, play good fixed effect, improve the installation effectiveness greatly, can also guarantee the reliability of connecting simultaneously.

The elastic compression structure comprises an elastic expansion part 101, an installation part 102 and a guide part 103, one end of the elastic expansion part 101 is fixedly connected to the moving part 10, the other end of the elastic expansion part is fixedly connected to the installation part 102, an installation hole is formed in the installation part 102, the guide part 103 is rotatably connected to the installation hole, and the surface of the guide part 103 is matched with the surface of the lightning protection belt. The installation part 102 and the moving part 10 are connected into a whole by the elastic telescopic part 101, so that power is provided for the guide wheel 9 to move into the second positioning groove 81 in the later period, and meanwhile, the guide part 9 provides convenience for pushing the moving part 10 due to the fact that the surface of the guide part 9 is matched with the surface structure of the lightning protection belt.

Example 2:

the use method of the passive ultra-low energy consumption building roof lightning grounding protection mounting fixture comprises the following steps:

A. firstly, a fixed piece 1 and a moving piece 2 are connected through an adjusting piece 3, the adjusting piece 3 is adjusted to move the moving piece 2 to one side close to the fixed piece 1 until a positioning part 21 on the moving piece 2 is matched with a longitudinal seam of a roof, and the effect of integrally and fixedly installing a clamp is realized;

B. according to the installation position of the lightning protection belt, firstly, the connecting piece 8 is pulled to enable the supporting rod 6, the positioning block 7 and the moving part 43 to move upwards at the same time, the positioning block 7 is separated from the first positioning groove 51, then, a proper angle is formed between the adjusting connecting piece 8 and the moving part 43, the angle is the optimal connection angle, when the connecting piece 8 is loosened, the connecting piece 8, the moving part 43, the positioning block 7 and the supporting rod 6 move downwards together under the action of the compression spring 44, so that the positioning block 7 is matched with the corresponding first positioning groove 51, and then, the moving part 43 is pressed tightly at the position through the limiting part 45;

C. the moving piece 10 is placed on the lightning protection belt, then the moving piece 10 is pressed downwards, meanwhile, the guide portion 103 and the installation portion 102 compress the elastic expansion portion 101 together until one end of the protrusion is inserted into the guide groove 81, then the moving piece 10 is pushed, meanwhile, the guide wheel 9 and the guide portion 103 move along the guide groove 81 and the lightning protection belt respectively until the second positioning groove 82 is matched with the guide wheel 9, and installation work is completed.

The above description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto. The substitution may be of partial structures, devices, method steps, or may be a complete solution. The technical solution and the inventive concept thereof according to the present invention should be equally replaced or changed within the protection scope of the present invention.

Claims (6)

1. Passive ultralow energy consumption building roofing lightning grounding's sectional fixture, its characterized in that includes:

the clamping assembly comprises a fixed piece (1), a moving piece (2) and an adjusting piece (3), wherein the fixed piece (1) is connected with the moving piece (2) through the adjusting piece (3) and is used for being connected with a roof;

the supporting assembly comprises a telescopic piece (4) and a positioning piece (5), a cavity is formed in the telescopic piece (4), the telescopic piece (4) is fixedly installed on the fixing piece (1), an installation opening (41) communicated with the cavity of the telescopic piece (4) is formed in the top of the telescopic piece, a supporting rod (6) is connected in the installation opening (41) in a rotating mode, one end of the supporting rod (6) extends into the cavity and is fixedly connected with a positioning block (7), the other end of the supporting rod (6) extends to the outer side of the telescopic piece (4) and is connected with a connecting unit adaptive to the lightning protection belt, the positioning piece (5) is fixedly connected to the bottom of the cavity of the telescopic piece (4), and a first positioning groove (51) adaptive to the positioning block (7) is formed in the positioning piece (5);

the connecting unit comprises a connecting piece (8), a moving piece (10) and a guide wheel (9), the connecting piece (8) is fixedly connected to the top end of the supporting rod (6), a guide groove (81) is formed in the connecting piece (8), a second positioning groove (82) is formed in the upper side wall of the guide groove (81), a protrusion in sliding fit with the guide groove (81) is arranged on the moving piece (10), the guide wheel (9) is rotatably connected to the protrusion, the guide wheel (9) is matched with the second positioning groove (82), and an elastic pressing structure is arranged on one side of the moving piece (10) opposite to the lightning protection belt;

elasticity compact structure includes elastic expansion portion (101), installation department (102) and guide part (103), the one end fixed connection of elastic expansion portion (101) on moving part (10), the other end and installation department (102) fixed connection, the mounting hole has been seted up on installation department (102), guide part (103) rotate to be connected in the mounting hole, the surface and the lightning-arrest surperficial adaptation of area of guide part (103).

2. The dynamic lightning grounding installation clamp for the building roof with the ultra-low energy consumption according to claim 1, wherein the expansion piece (4) comprises a fixed portion (42) and a movable portion (43), the fixed portion (42) is fixedly installed on the fixed member (1), a compression spring (44) is arranged inside the fixed portion (42), the movable portion (43) is movably connected inside the fixed portion (42) and is fixedly connected with the compression spring (44), and the installation port (41) is arranged at the top end of the movable portion (43).

3. The dynamic type lightning grounding installation clamp for the building roof with ultra-low energy consumption according to claim 2, wherein a limiting part (45) for pressing the moving part (43) is connected to the fixing part (42) in a matching manner.

4. The dynamic type ultra-low energy consumption building roof lightning protection grounding installation clamp according to claim 3, wherein one side surface of the positioning piece (5) relative to the positioning block (7) is an arc-shaped structural surface, a plurality of groups of positioning grooves (51) are arranged and uniformly distributed on the arc-shaped structural surface, and when the positioning block (7) is matched with any one positioning groove (51), the positions of lightning protection belts are all at the same height.

5. The passive type lightning grounding installation clamp for the ultra-low energy consumption building roof is characterized in that the fixed member (1) is of a T-shaped structure, one side, opposite to the fixed member (1), of the moving member (2) is provided with a positioning part (21) matched with the roof structure, and the adjusting member (3) is an adjusting bolt.

6. The use method of the passive ultra-low energy consumption building roof lightning grounding installation clamp according to claim 5 is characterized by comprising the following steps:

A. firstly, a fixed piece (1) and a moving piece (2) are connected through an adjusting piece (3), and the adjusting piece (3) is adjusted to move the moving piece (2) to one side close to the fixed piece (1) until a positioning part (21) on the moving piece (2) is matched with a longitudinal seam of a roof;

B. according to the installation position of the lightning protection belt, firstly, the connecting piece (8) is pulled to enable the supporting rod (6), the positioning block (7) and the moving part (43) to move upwards simultaneously, the positioning block (7) is separated from the first positioning groove (51), then, a proper angle is formed between the connecting piece (8) and the moving part (43) in an adjusting mode, the angle is the optimal connection angle, when the connecting piece (8) is loosened, the connecting piece (8), the moving part (43), the positioning block (7) and the supporting rod (6) move downwards together under the action of the compression spring (44), so that the positioning block (7) is matched with the corresponding first positioning groove (51), and then, the moving part (43) is pressed tightly through the limiting part (45);

C. the moving piece (10) is placed on the lightning protection belt, then the moving piece (10) is pressed downwards, meanwhile, the guide portion (103) and the installation portion (102) compress the elastic telescopic portion (101) together until one end of the protrusion is inserted into the guide groove (81), the moving piece (10) is pushed backwards, meanwhile, the guide wheel (9) and the guide portion (103) move along the guide groove (81) and the lightning protection belt respectively until the positioning groove II (82) is matched with the guide wheel (9), and installation work is completed.

Images