CN116122602B - V-shaped column auxiliary debugging and installing system and using method - Google Patents

Abstract

The utility model relates to a V type post assists debugging installing the system and application method, belong to building auxiliary equipment's technical field, it includes double-barrelled stand and structural column, the one end that the ground was kept away from to the structural column is connected with the backup pad, the one end ball of backup pad articulates there is V type stand, V type stand includes first stand and second stand, the other end of backup pad articulates there is the support column, one side of double-barrelled stand is provided with the fixed station, one side of fixed station is provided with the dead lever, be provided with the bracing piece between dead lever and the fixed station, the fixed station is provided with the spout with bracing piece slip adaptation towards the surface annular of dead lever, the cavity has inwards been seted up to the lateral wall that the dead lever deviates from double-barrelled stand, sliding connection has the lead screw in the cavity, the circumference lateral wall threaded connection of lead screw has the thread bush, rotate between thread bush and the dead lever and be connected, the one end that the dead lever was kept away from to the lead screw is provided with the centre gripping subassembly, this application has the effect that improves V type post and builds efficiency.

Description

V-shaped column auxiliary debugging and installing system and using method

Technical Field

The application relates to the technical field of building auxiliary equipment, in particular to a V-shaped column auxiliary debugging and installing system and a using method.

Background

Urban architecture is continuously developed, in high-rise integrated buildings, functional requirements are complex, in order to effectively utilize building space and meet building elevation effects and large space requirements, the condition of changing column nets up and down is frequently met, and a structure conversion layer is usually arranged on a layer with the column net size needing to be changed.

V-shaped columns are often used in the structure conversion layer to support the upper-layer reticulated shell structure, and at present, the V-shaped columns also need to adopt a large amount of manual work in the building process.

Aiming at the related technology, the inventor considers that the manual work efficiency is lower, and the defect of low construction efficiency of the V-shaped column exists.

Disclosure of Invention

In order to improve the construction efficiency of V type post, this application provides a supplementary debugging installing the system of V type post.

In a first aspect, the present application provides a V-pillar auxiliary debugging installation system, which adopts the following technical scheme:

the utility model provides an auxiliary debugging installing the system of V type post, includes double-barrelled stand and structural column, the one end that ground was kept away from to structural column is connected with the backup pad, and the one end of backup pad is connected with V type stand, and V type stand includes first stand and second stand, and the other end of backup pad articulates there is the supporting column, and one side of double-barrelled stand is provided with the fixed station, and one side of fixed station is provided with the dead lever, is provided with the bracing piece between dead lever and the fixed station, and the fixed station towards the surface annular of dead lever seted up with bracing piece slip adaptation's spout, the dead lever deviates from the inside cavity of having seted up of lateral wall of double-barrelled stand, and sliding connection has the lead screw in the cavity, and the circumference lateral wall threaded connection of lead screw has the thread bush, rotates between thread bush and the dead lever to be connected, and the one end that the dead lever was kept away from to the lead screw is provided with the clamping assembly.

By adopting the technical scheme, a worker connects the screw rod with the first upright post through the clamping assembly, rotates the fixed rod to enable the screw rod to move, and the screw rod moves to drive the first upright post to move; rotating the threaded sleeve moves the lead screw, which moves the first upright. Through above structure, rotatory dead lever and thread bush are with first stand motion to preset position, adopt mechanical equipment to assist manual work, have realized improving the effect that the efficiency was built to the V type post.

Optionally, be provided with the supporting shoe between fixed station and the double-barrelled stand, the supporting shoe is kept away from dead lever one end and is articulated to have two first fastening rings, and two first fastening rings set up in the both sides of supporting shoe relatively, and two first fastening rings are kept away from the one end of supporting shoe and are all set firmly first connecting piece, run through between two first connecting pieces and are provided with first pair of draw bolt.

Through adopting above-mentioned technical scheme, the staff makes two first fastening rings press from both sides tightly to double-barrelled stand through first split bolt to fix between fixed station and the double-barrelled stand, realized fixed and dismantle convenient effect between fixed station and the double-barrelled stand.

Optionally, the one end ball that the dead lever was kept away from to the lead screw articulates there is the installation piece, and clamping assembly sets up in the one side that the installation piece deviates from the fixed station, and clamping assembly includes two second fastening rings, two second connection pieces and a second split bolt, and two second fastening rings articulate respectively in the both sides of installation piece, and two second connection pieces are kept away from the one end fixed connection of installation piece with the second fastening ring respectively, and the second split bolt runs through two second connection pieces.

Through adopting above-mentioned technical scheme, the staff makes two second fastening rings press from both sides tightly first stand through the second split bolt to fixed installation piece and first stand, and then make lead screw and first stand fixed, realized fixed and dismantle convenient effect between lead screw and the first stand

Optionally, the cavity has been seted up in the fixed station, be provided with the commentaries on classics roller between dead lever and the fixed station, the one end that the dead lever was kept away from to the commentaries on classics roller runs through the fixed station and stretches into in the cavity, the diapire that the dead lever was kept away from to the fixed station is installed and is used for driving commentaries on classics roller pivoted rotating motor, be provided with the transfer line in the cavity, the transfer line with rotate the output shaft end fixed connection of motor, the first jack of the terminal surface of transfer roller towards transfer line slip adaptation has been seted up with the transfer line, the transfer line is kept away from the one end of rotating motor and has been set firmly the drive block, the first groove of dodging that is used for the drive block to remove is seted up to the inner wall of transfer roller in first jack department, the one end that the transfer roller is close to the dead lever is provided with the joint subassembly with the dead lever joint.

Through adopting above-mentioned technical scheme, remove the commentaries on classics roller and make the transfer line follow the jack and slide, the transmission piece is followed the first groove of dodging simultaneously and is slided until the joint between commentaries on classics roller and the dead lever, starts to rotate the motor and makes the commentaries on classics roller rotate through transfer line and transmission piece, and the commentaries on classics roller rotates and makes the dead lever rotate to it drives the dead lever and rotates to rotate the motor, has realized the effect of making things convenient for the staff operation.

Optionally, the joint subassembly includes joint piece, fixed block, fixed plate and pin, the joint piece sets firmly in the one end that the roller is close to the dead lever, the dead lever is offered towards the lateral wall of fixed station with the second jack of the adaptation of changeing the roller grafting, the second that is used for the joint piece to remove is offered to the dead lever in the inner wall of second jack department dodges the groove, fixed block and fixed plate set up respectively in the both sides in the second dodge groove, and fixed block and fixed plate are all with fixed lever between fixed connection, the chamber of accomodating has been offered towards the lateral wall of fixed plate to the fixed block, the pin sets up in accomodating the intracavity, and pin and fixed block follow horizontal direction sliding connection, the fixed plate runs through offered with the third jack of pin grafting adaptation towards the lateral wall of fixed block.

Through adopting above-mentioned technical scheme, remove the commentaries on classics roller and make commentaries on classics roller and second jack grafting adaptation, the joint piece is retracted in the second and dodges the inslot this moment, and staff slides the pin and makes pin and second jack grafting adaptation to the pin makes the joint piece be difficult for breaking away from the second and dodges the groove, and when changeing the roller and rotate, the commentaries on classics roller makes the dead lever rotate through the joint piece, has realized changeing roller and has driven dead lever pivoted effect.

Optionally, accomodate the groove has been seted up to the lateral wall of pin, and it has the fixture block to accomodate the inslot sliding connection, has set firmly first spring between fixture block and the pin, and the fixed block runs through the draw-in groove of seting up with fixture block joint adaptation in the inner wall of accomodating chamber department, has set firmly the second spring between pin and the fixed block.

Through adopting above-mentioned technical scheme, the staff contracts the fixture block into and accomodates the inslot after, and the fixture block breaks away from the draw-in groove this moment, and second spring release elasticity makes pin and third jack grafting adaptation simultaneously to realized the effect of pin automation and third jack grafting adaptation.

Optionally, the first bevel gear has been set firmly to the circumference lateral wall of commentaries on classics roller in the cavity, is provided with the driving roller in the cavity, and the one end that the driving roller is close to the thread bush runs through the fixed station and stretches out to the outside, and rotates between driving roller and the fixed station to be connected, and the one end that the driving roller is close to the commentaries on classics roller has set firmly with first bevel gear engaged with second bevel gear, and the circumference lateral wall of driving roller other end has set firmly the worm, and the circumference lateral wall of thread bush has set firmly the worm wheel with worm engaged.

Through adopting above-mentioned technical scheme, remove the roller and make first bevel gear and second bevel gear mesh to the roller rotates and makes the second bevel gear rotate through first bevel gear, and the second bevel gear rotates and makes the driving roller rotate, and the driving roller rotates and makes the worm rotate, and the worm rotates and makes the worm wheel rotate, and the worm wheel rotates and makes the thread bush rotate, thereby rotates the motor and can drive the thread bush rotation, has realized the effect of making things convenient for the staff operation.

Optionally, first rings have set firmly to the circumference lateral wall of first stand, and the circumference lateral wall of support stand has set firmly the second rings, fixedly connected with wire rope between first rings and the second rings.

Through adopting above-mentioned technical scheme, after first stand moves to the position of predetermineeing, first stand makes the support stand move to the position of predetermineeing through wire rope to the effect of first stand and third stand debugging simultaneously has been realized.

Optionally, the montant has set firmly on the surface that the backup pad deviates from the structural column, and montant and the holding column's rotation surface is located the coplanar, and the fixed pulley is installed to the one end that the backup pad was kept away from to the montant, and wire rope bypasses the fixed pulley.

Through adopting above-mentioned technical scheme, the force that receives the support stand through the fixed pulley changes into with self plane of rotation face in to realized the smooth and easy effect of support stand rotation.

Optionally, the bottom of V type stand is provided with the regulating station, and the ball articulates between regulating station and the backup pad, fixed connection between first stand and the regulating station, and articulated between second stand and the first stand is provided with the adjusting device who is used for adjusting second stand angle between first stand and the second stand.

Through adopting above-mentioned technical scheme, make the second stand take place to rotate through adjusting device to the effect of adjusting the contained angle between first stand and the second stand has been realized.

Optionally, adjusting device includes two-way screw rod and adjusting collar, and two sections screw threads opposite to each other are seted up respectively at two ends of two-way screw rod, and the adjusting collar is provided with two, and two adjusting collars set up respectively on two sections screw threads, equal threaded connection between adjusting collar and the two-way screw rod, and the one end that two adjusting collars kept away from each other is articulated with first stand and second stand respectively.

Through adopting above-mentioned technical scheme, the staff rotates two-way screw rod and makes two adjusting sleeves to the direction motion that keeps away from each other to realized adjusting device makes second stand pivoted effect.

In a second aspect, the application provides a method for using a V-shaped column auxiliary debugging and installing system, which adopts the following technical scheme:

the application method of the V-shaped column auxiliary debugging and installing system comprises the following steps:

s1, connecting a screw rod with a first upright post through a clamping assembly;

s2, moving the rotating roller to enable the rotating roller to be connected with the fixed rod, starting the rotating motor to drive the first upright post to move, and simultaneously driving the supporting upright post to move through the steel wire rope by the first upright post;

s3, moving the rotating roller to enable the first bevel gear to be meshed with the second bevel gear, starting the rotating motor to drive the first upright post to move, and simultaneously driving the supporting upright post to move through the steel wire rope by the first upright post;

s4, repeating the steps S2 and S3 repeatedly until the first upright post is moved to the preset position, and simultaneously moving the second upright post and the supporting upright post to the preset position.

In summary, the present application includes at least one of the following beneficial technical effects:

the screw rod moves the first upright post to a preset position through the clamping assembly by rotating the fixing rod and the threaded sleeve, and the mechanical equipment is adopted for assisting manual operation, so that the effect of improving the construction efficiency of the V-shaped column is achieved.

After the rotating roller is clamped with the fixed rod, the rotating motor is started to drive the rotating roller to drive the fixed rod to rotate through the transmission rod and the transmission block, so that the effect of facilitating the operation of staff is achieved.

After the first bevel gear is meshed with the second bevel gear, the rotating roller rotates to enable the second bevel gear to drive the driving roller to rotate through the first bevel gear, and the driving roller enables the worm wheel to drive the threaded sleeve to rotate through the worm, so that the effect of facilitating operation of workers is achieved.

Drawings

FIG. 1 is a schematic structural diagram of a V-pillar assisted debug mounting system according to an embodiment of the present application;

FIG. 2 is a schematic diagram of an embodiment of the present application showing the structure of a clamping assembly;

FIG. 3 is a cross-sectional view of an embodiment of the present application showing the internal structure of a stationary bar and stationary table;

FIG. 4 is an enlarged schematic view of a portion A of FIG. 3;

FIG. 5 is a partially enlarged schematic illustration of portion B of FIG. 3;

FIG. 6 is a partial schematic view showing a structure of a clamping assembly according to an embodiment of the present application;

FIG. 7 is an enlarged schematic view of a portion C of FIG. 6;

FIG. 8 is a schematic diagram of a structure embodying the position of a stiffener according to an embodiment of the present disclosure.

Reference numerals illustrate: 1. double-tube upright posts; 11. a fixed table; 111. a chute; 112. a cavity; 113. a rotating motor; 12. a support block; 121. a first fastening ring; 1211. a first connecting piece; 1212. a first split bolt; 2. a structural column; 21. a support plate; 22. v-shaped upright posts; 221. a first upright; 2211. a first hanging ring; 222. a second upright; 23. a support column; 231. the second hanging ring; 24. a vertical rod; 241. a fixed pulley; 25. a groove; 26. stiffening plates; 3. a fixed rod; 31. a support rod; 32. a cavity; 33. a screw rod; 331. a thread sleeve; 3311. a worm wheel; 332. a limit groove; 333. a mounting block; 34. a second jack; 35. a second avoidance groove; 36. a limiting block; 4. a clamping assembly; 41. a second fastening ring; 42. a second connecting piece; 43. a second split bolt; 5. a rotating roller; 51. a first jack; 511. a transmission rod; 5111. a transmission block; 52. a first avoidance groove; 53. a first bevel gear; 6. a clamping assembly; 61. a clamping block; 62. a fixed block; 621. a storage chamber; 622. a clamping groove; 623. a second spring; 63. a fixing plate; 631. a third jack; 64. a stop lever; 641. a storage groove; 642. a clamping block; 643. a first spring; 7. a driving roller; 71. a second bevel gear; 72. a worm; 8. a wire rope.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-8.

The embodiment of the application discloses an auxiliary debugging and installing system for a V-shaped column.

Referring to fig. 1, a V-shaped column auxiliary debugging and installing system comprises a double-tube column 1 and a structural column 2, wherein a V-shaped column 22 and a supporting column 23 are arranged on one side, far away from the ground, of the structural column 2, the V-shaped column 22 and the supporting column 23 are respectively arranged on two sides of the structural column 2, the V-shaped column 22 comprises a first column 221 and a second column 222, and a steel wire rope 8 is connected between the first column 221 and the supporting column 23.

The staff moves the first stand column 221, the first stand column 221 moves to drive the second stand column 222 to move, and meanwhile, the first stand column 221 drives the supporting stand column 23 to move through the steel wire rope 8.

Referring to fig. 1, a fixing table 11 is provided on one side of a double-pipe column 1 along a horizontal direction, two supporting blocks 12 are provided between the fixing table 11 and the double-pipe column 1, the two supporting blocks 12 are oppositely arranged on two sides of the fixing table 11, one end, far away from a fixing rod 3, of each supporting block 12 is hinged with two first fastening rings 121, the two first fastening rings 121 are oppositely arranged on two sides of each supporting block 12, one end, far away from a supporting block 12, of each first fastening ring 121 is fixedly provided with a first connecting sheet 1211, and a first pair of pull bolts 1212 are penetratingly arranged between the two first connecting sheets 1211.

The worker wraps two adjacent first fastening rings 121 around the double pipe column 1, respectively, and fixes the first fastening rings 121 to the double pipe column 1 through the first pair of tie bolts 1212 and the first connection piece 1211, thereby fixing the fixing table 11 to the double pipe column 1.

Referring to fig. 2 and 3, a fixing rod 3 is provided on a side of the fixing table 11 facing away from the ground in a horizontal direction, a cavity 32 is provided on an end surface of the fixing rod 3, a screw 33 is slidably connected in the cavity 32, a thread sleeve 331 is screwed on a circumferential side wall of the screw 33, and the thread sleeve 331 is rotatably connected with the fixing rod 3.

Referring to fig. 3 and 4, a limiting block 36 is fixedly arranged on the inner wall of the cavity 32 of the fixing rod 3, and a limiting groove 332 which is slidably matched with the limiting block 36 is formed in the lead screw 33 along the length direction of the lead screw 33.

The screw sleeve 331 rotates to drive the screw rod 33 to move, and the screw rod 33 moves to drive the limiting block 36 to slide along the limiting groove 332, so that the screw rod 33 is not easy to rotate along with the screw sleeve 331.

Referring to fig. 2, an end of the screw rod 33 far away from the fixed rod 3 is ball-hinged with a mounting block 333, one side of the mounting block 333 far away from the screw rod 33 is provided with a clamping assembly 4, the clamping assembly 4 comprises two second fastening rings 41, two second connecting pieces 42 and a second split bolt 43, the two second fastening rings 41 are respectively arranged on two sides of the mounting block 333, the two second fastening rings 41 are hinged with the mounting block 333, the two second connecting pieces 1211 are respectively fixedly connected with one end of the second fastening rings 41 far away from the mounting block 333, and the second split bolt 43 penetrates through the two second connecting pieces 42.

The worker wraps the two second fastening rings 41 around the first column 221, and fixes the second fastening rings 41 to the first column 221 via the second split bolts 43 and the second connecting pieces 42, thereby fixing the screw 33 to the first column 221.

Referring to fig. 3, a cavity 112 is formed in the fixed table 11, a rotary motor 113 is mounted on the bottom wall of the fixed table 11, which is away from the fixed rod 3, an output shaft of the rotary motor 113 penetrates through the fixed table 11 and extends into the cavity 112, a transmission rod 511 is fixedly connected to an end of the output shaft of the rotary motor 113 along the vertical direction, two transmission blocks 5111 are fixedly arranged at one end of the transmission rod 511, which is far away from the rotary motor 113, and the two transmission blocks 5111 are oppositely arranged at two sides of the transmission rod 511.

Referring to fig. 3 and 5, a roller 5 is disposed in a cavity 112 along a vertical direction, a top end of the roller 5 penetrates through a fixing table 11 and extends to the outside, a first insertion hole 51 which is slidably matched with a transmission rod 511 is formed in an end face of the roller 5, which faces a rotating motor 113, a first avoidance groove 52 for sliding a transmission block 5111 is formed in an inner wall of the roller 5 at the first insertion hole 51 along the vertical direction, the first avoidance groove 52 does not penetrate through end faces of two ends of the roller 5, and a clamping assembly 6 is disposed between one end of the roller 5 extending out of the fixing table 11 and the fixing rod 3.

Referring to fig. 2, two support rods 31 are disposed between the fixing rod 3 and the fixing table 11, the two support rods 31 are disposed at two ends of the fixing rod 3, and a sliding groove 111 slidably adapted to the support rods 31 is annularly formed on the surface of the fixing table 11 facing the fixing rod 3.

The worker moves the rotary roller 5 to enable the transmission rod 511 to slide along the first insertion hole 51, and the transmission rod 511 drives the transmission block 5111 to slide along the first avoiding groove 52 until the clamping structure clamps and fixes the fixing rod 3 and the rotary roller 5. When the rotary motor 113 is started, the rotary motor 113 drives the transmission rod 511 to rotate, and the transmission rod 511 drives the rotary roller 5 to rotate through the transmission block 5111, so that the rotary roller 5 drives the fixing rod 3 to rotate through the clamping structure, and the fixing rod 3 rotates to drive the supporting rod 31 to slide along the sliding groove 111.

Referring to fig. 5 and 6, the clamping assembly 6 includes two clamping blocks 61, the clamping blocks 61 are provided with two, the two clamping blocks 61 are all fixedly arranged at one end of the rotating roller 5, which is close to the fixed rod 3, and the two clamping blocks 61 are oppositely arranged at two sides of the rotating roller 5, the fixed rod 3 is provided with a second jack 34 which is inserted and matched with the rotating roller 5 towards the bottom wall of the fixed table 11, and the inner wall of the fixed rod 3 at the second jack 34 is provided with a second avoiding groove 35 for moving the clamping blocks 61.

Referring to fig. 6, the clamping assembly 6 further includes a fixing block 62, a fixing plate 63 and a blocking rod 64, the fixing block 62 and the fixing plate 63 are respectively disposed at two sides of the second avoiding groove 35, the fixing block 62 and the fixing plate 63 are fixedly connected with the fixing rod 3, a storage cavity 621 is formed in the side wall of the fixing block 62 facing the fixing plate 63, the blocking rod 64 is disposed in the storage cavity 621, the blocking rod 64 is slidably connected with the fixing block 62 along the horizontal direction, a second spring 623 is fixedly disposed between the blocking rod 64 and the fixing block 62, and a third insertion hole 631 adapted to the blocking rod 64 in a plugging manner is formed in the side wall of the fixing plate 63 facing the fixing block 62.

Referring to fig. 6 and 7, a receiving groove 641 is formed in a side wall of the stop lever 64, a clamping block 642 is slidably connected in the receiving groove 641, a first spring 643 is fixedly arranged between the clamping block 642 and the stop lever 64, and a clamping groove 622 adapted to the clamping block 642 in a clamping manner is formed in the inner wall of the receiving cavity 621 in a penetrating manner of the fixing block 62.

When the rotating roller 5 is in plug-in fit with the second jack 34, the clamping block 61 is simultaneously retracted into the second avoiding groove 35, the worker presses the clamping block 642 to separate the clamping block 642 from the clamping block 642 and retract into the accommodating groove 641, and at this time, the second spring 623 releases elastic force to drive the stop lever 64 to slide along the accommodating cavity 621, so that the stop lever 64 penetrates through the third jack 631.

Referring to fig. 3, the rotating roller 5 is provided with a driving roller 7 in the cavity 112 along the horizontal direction on one side facing the thread sleeve 331, one end of the driving roller 7 near the thread sleeve 331 penetrates through the fixed table 11 and extends to the outside, one end of the driving roller 7 near the rotating roller 5 is fixedly provided with a second bevel gear 71, and the circumferential side wall of the rotating roller 5 is fixedly provided with a first bevel gear 53 in meshed connection with the second bevel gear 71.

Referring to fig. 3, one end of the driving roller 7 far from the second bevel gear 71 is sleeved with a worm 72, the worm 72 is fixedly connected with the driving roller 7, and a worm wheel 3311 meshed with the worm 72 is fixedly arranged on the circumferential side wall of the threaded sleeve 331.

The rotating roller 5 is moved to separate the rotating roller 5 from the fixed rod 3, at this time, the first bevel gear 53 is meshed with the second bevel gear 71, the rotating roller 5 rotates to drive the second bevel gear 71 to rotate through the first bevel gear 53, the second bevel gear 71 drives the driving roller 7 to rotate, the driving roller 7 drives the worm 72 to rotate, the worm 72 drives the worm wheel 3311 to rotate, and the worm wheel 3311 drives the threaded sleeve 331 to rotate.

Referring to fig. 8, a support plate 21 is provided at one end of the structural column 2 far from the ground along the horizontal direction, a stiffening plate 26 is provided between the support plate 21 and the structural column 2, a groove 25 is provided at the side wall of the structural column 2 along the vertical direction, the stiffening plate 26 is embedded into the groove 25, and the stiffening plate 26 is fixedly connected with the support plate 21 and the structural column 2.

Referring to fig. 1, one end of the first upright 221 and the second upright 222, which is close to the structural column 2, are fixedly connected with the support plate 21, and an angle between the first upright 221 and the second upright 222 is a preset fixed angle; the support column 23 is close to the one end of structure post 2 and is articulated through the otic placode between the backup pad 21, and the backup pad 21 deviates from the surface of stiffening plate 26 and is provided with montant 24 along vertical direction, and montant 24 is located the coplanar with the rotation plane of support column 23, and fixed pulley 241 is installed to the one end that montant 24 kept away from backup pad 21.

Referring to fig. 1, a second hanging ring 231 is fixedly arranged on the circumferential side wall of the supporting upright 23, a first hanging ring 2211 is fixedly arranged on the circumferential side wall of the first upright 221, a steel wire rope 8 is fixedly connected between the first hanging ring 2211 and the second hanging ring 231, and the steel wire rope 8 bypasses the fixed pulley 241.

Stability between the structural column 2 and the support plate 21 is improved through the stiffening plate 26, and when the first upright column 221 moves, the first upright column 221 drives the support upright column 23 to rotate through the steel wire rope 8.

The implementation principle of the V-shaped column auxiliary debugging and installing system and the application method is as follows: the staff secures the screw 33 with the first upright 221 by the clamping assembly 4. The rotating roller 5 is moved to enable the rotating roller 5 to be clamped with the fixed rod 3, and the rotating motor 113 is started to enable the screw rod 33 to drive the first upright post 221 to move through the rotating roller 5; the rotating roller 5 is moved to enable the first bevel gear 53 to be meshed with the second bevel gear 71, the rotating motor 113 is started to enable the first bevel gear 53 to drive the second bevel gear 71 to rotate through the rotating roller 5, the second bevel gear 71 enables the worm 72 to rotate through the driving roller 7, and the worm 72 enables the lead screw 33 to drive the first upright 221 to move through the threaded sleeve 331. After the first upright 221 is moved to the preset position, both the second upright 222 and the third upright are in the preset position. Through the structure, the effect of improving the efficiency of building the V-shaped column is achieved.

The embodiment of the application also discloses a using method of the V-shaped column auxiliary debugging and installing system.

The method comprises the following steps:

s1, connecting a lead screw 33 with a first upright 221 through a clamping assembly 4;

s2, moving the rotary roller 5 to enable the rotary roller 5 to be connected with the fixed rod 3, starting the rotary motor 113 to drive the first stand column 221 to move, and simultaneously driving the supporting stand column 23 to move by the first stand column 221 through the steel wire rope 8;

s3, moving the rotary roller 5 to enable the first bevel gear 53 to be meshed with the second bevel gear 71, starting the rotary motor 113 to drive the first upright post 221 to move, and simultaneously driving the supporting upright post 23 to move by the first upright post 221 through the steel wire rope 8;

s4, repeating S2 and S3 repeatedly until the first upright 221 is moved to the preset position, at which time both the second upright 222 and the supporting upright 23 are simultaneously moved to the preset position.

The embodiments of the present invention are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in this way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. The utility model provides an auxiliary debugging installing the system of V type post, includes double-barrelled stand (1) and structural column (2), its characterized in that: one end of the structural column (2) far away from the ground is connected with a supporting plate (21), one end of the supporting plate (21) is hinged with a V-shaped stand column (22), the V-shaped stand column (22) comprises a first stand column (221) and a second stand column (222), the other end of the supporting plate (21) is hinged with a supporting stand column (23), one side of the double-pipe stand column (1) is provided with a fixed table (11), one side of the fixed table (11) is provided with a fixed rod (3), a supporting rod (31) is arranged between the fixed rod (3) and the fixed table (11), a sliding groove (111) which is matched with the supporting rod (31) in a sliding manner is annularly formed in the surface of the fixed table (11) facing the fixed rod (3), a cavity (32) is formed in the side wall of the fixed rod (3) facing away from the double-pipe stand column (1), a lead screw (33) is connected in a sliding manner, the circumferential side wall of the lead screw (33) is connected with a threaded sleeve (331) in a threaded manner, the threaded sleeve (331) is rotatably connected between the threaded sleeve (331) and the fixed rod (3), and one end of the lead screw (33) far away from the fixed rod (3) is provided with a clamping component (4); a cavity (112) is formed in the fixed table (11), a rotary roller (5) is arranged between the fixed rod (3) and the fixed table (11), one end of the rotary roller (5) away from the fixed rod (3) penetrates through the fixed table (11) and stretches into the cavity (112), a rotary motor (113) for driving the rotary roller (5) to rotate is mounted on the bottom wall of the fixed table (11) away from the fixed rod (3), a transmission rod (511) is arranged in the cavity (112), the transmission rod (511) is fixedly connected with the end part of an output shaft of the rotary motor (113), a first jack (51) which is matched with the transmission rod (511) in a sliding mode is formed in the end face of the rotary roller (5) facing the transmission rod (511), a transmission block (5111) is fixedly arranged at one end of the transmission rod (511) away from the rotary motor (113), a first avoiding groove (52) for enabling the transmission block (5111) to move is formed in the inner wall of the rotary roller (5), and a clamping component (6) which is clamped with the fixed rod (3) is arranged at one end of the rotary roller (5) close to the fixed rod (3); the rotating roller (5) is fixedly provided with a first bevel gear (53) on the circumferential side wall in the cavity (112), a driving roller (7) is arranged in the cavity (112), one end of the driving roller (7) close to the thread bush (331) penetrates through the fixed table (11) and stretches out to the outer side, the driving roller (7) is rotationally connected with the fixed table (11), one end of the driving roller (7) close to the rotating roller (5) is fixedly provided with a second bevel gear (71) meshed with the first bevel gear (53), the circumferential side wall of the other end of the driving roller (7) is fixedly provided with a worm (72), and the circumferential side wall of the thread bush (331) is fixedly provided with a worm wheel (3311) meshed with the worm (72).

2. The V-pillar assisted debug mounting system of claim 1, wherein: be provided with supporting shoe (12) between fixed station (11) and double-barrelled stand (1), supporting shoe (12) keep away from dead lever (3) one end and articulate two first fastening ring (121), two first fastening ring (121) set up in the both sides of supporting shoe (12) relatively, and two first fastening ring (121) are kept away from the one end of supporting shoe (12) and are all set firmly first connecting piece (1211), run through between two first connecting pieces (1211) and are provided with first pair of draw bolt (1212).

3. The V-pillar assisted debug mounting system of claim 1, wherein: one end ball that dead lever (3) was kept away from to lead screw (33) articulates there is installation piece (333), clamping assembly (4) set up in one side that installation piece (333) kept away from fixed station (11), clamping assembly (4) include two second fastening rings (41), two second connection piece (42) and a second split bolt (43), two second fastening rings (41) articulate respectively in the both sides of installation piece (333), two second connection piece (42) are kept away from the one end fixed connection of installation piece (333) with second fastening ring (41) respectively, two second connection piece (42) are run through to split bolt (43).

4. The V-pillar assisted debug mounting system of claim 1, wherein: the clamping assembly (6) comprises clamping blocks (61), fixing blocks (62), fixing plates (63) and stop rods (64), wherein the clamping blocks (61) are fixedly arranged at one ends, close to the fixing rods (3), of the rotating rollers (5), the fixing rods (3) face the side walls of the fixing tables (11) to form second insertion holes (34) which are matched with the rotating rollers (5) in an insertion mode, the fixing rods (3) face the inner walls of the second insertion holes (34) to form second avoidance grooves (35) which are used for the clamping blocks (61) to move, the fixing blocks (62) and the fixing plates (63) are respectively arranged at two sides of the second avoidance grooves (35), the fixing blocks (62) and the fixing plates (63) are fixedly connected with the fixing rods (3), storage cavities (621) are formed in the side walls of the fixing blocks (62) towards the fixing rods (63), the stop rods (64) are arranged in the storage cavities (621), the side walls of the fixing rods (64) and the fixing blocks (62) are connected in a sliding mode along the horizontal direction, and the side walls of the fixing plates (63) face the side walls of the fixing blocks (62) to form third insertion holes (631) which are matched with the fixing rods (64).

5. The V-pillar assisted debug mounting system of claim 4, wherein: the side wall of pin (64) has been seted up and has been accomodate groove (641), accomodates inslot (641) sliding connection has fixture block (642), has set firmly first spring (643) between fixture block (642) and pin (64), and fixed block (62) run through in the inner wall of accomodating chamber (621) department set up draw-in groove (622) with fixture block (642) joint adaptation, set firmly second spring (623) between pin (64) and fixed block (62).

6. The V-pillar assisted debug mounting system of claim 1, wherein: the circumferential side wall of the first upright post (221) is fixedly provided with a first lifting ring (2211), the circumferential side wall of the supporting upright post (23) is fixedly provided with a second lifting ring (231), and a steel wire rope (8) is fixedly connected between the first lifting ring (2211) and the second lifting ring (231).

7. The V-pillar assisted debug mounting system of claim 6, wherein: the support plate (21) deviates from the surface of the structural column (2) and is fixedly provided with a vertical rod (24), the vertical rod (24) and the rotating surface of the support upright post (23) are located on the same plane, one end, far away from the support plate (21), of the vertical rod (24) is provided with a fixed pulley (241), and the steel wire rope (8) bypasses the fixed pulley (241).

8. The method for using the V-pillar assisted debug installation system according to claim 1, wherein: the method comprises the following steps:

s1, connecting a lead screw (33) with a first upright (221) through a clamping assembly (4);

s2, moving the rotating roller (5) to enable the rotating roller (5) to be connected with the fixed rod (3), starting a rotating motor (113) to drive the first upright post (221) to move, and simultaneously driving the supporting upright post (23) to move through the steel wire rope (8) by the first upright post (221);

s3, moving the rotating roller (5) to enable the first bevel gear (53) to be meshed with the second bevel gear (71), starting the rotating motor (113) to drive the first upright post (221) to move, and simultaneously driving the supporting upright post (23) to move through the steel wire rope (8) by the first upright post (221);

s4, repeating the steps S2 and S3 repeatedly until the first upright (221) is moved to the preset position, and simultaneously moving the second upright (222) and the supporting upright (23) to the preset position.

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