CN114012320B - Novel tower standard joint machining equipment and machining method thereof - Google Patents

Abstract

The invention discloses a novel tower standard joint machining device and a machining method thereof, which belong to the technical field of standard joint machining devices.

Description

Novel tower standard joint machining equipment and machining method thereof

Technical Field

The invention relates to standard knot processing equipment, in particular to novel tower standard knot processing equipment, and also relates to a processing method of the standard knot processing equipment, in particular to a processing method of the novel tower standard knot processing equipment, belonging to the technical field of standard knot processing equipment.

Background

The standard section of the tower crane plays an important role in mechanical equipment such as a crane, a tower crane, a lifter and the like.

The existing tower standard joint needs to be welded and fixed on a side frame body to form a square structure when being produced and processed, the mode that the side frame body is often supported manually is adopted in the welding process, one person is required to support the side frame body manually to weld, so that the existing tower standard joint is very inconvenient, time and labor are wasted, in addition, the problem that welding is unstable due to the fact that the person supports the side frame body easily to shake in the welding process is solved, and the novel tower standard joint processing equipment and the novel tower standard joint processing method are designed for the purpose to optimize the problem.

Disclosure of Invention

The invention mainly aims to provide a novel processing device and a processing method of a standard tower joint, a side frame of the standard tower joint is placed on a side frame and limited by a U-shaped limiting groove, a connecting rod frame to be welded is placed on the U-shaped supporting frame through a chassis support, then the side frame is adjusted to a position between the side frames of two groups of standard tower joints to be welded, a first horizontal driving motor is started to drive a horizontal spacing adjusting screw rod to rotate, the side frame is driven by the horizontal spacing adjusting screw rod to move towards the position between the connecting rod frame and the side frame of the standard tower joint in opposite directions, the connecting position is welded, then a vertical electric lifting rod is started to separate the U-shaped supporting frame, then a new connecting rod frame is put into the side frame to be welded again, a rotating motor is started to drive a driving gear to rotate after the welding is completed, a driven gear is driven by the driving gear, a turntable is driven by the driven gear, then a first vertical groove frame is driven to rotate, a first L-shaped sliding groove is further driven by the first vertical groove frame, then a vertical sliding sleeve block is driven to drive the first horizontal limiting groove and the horizontal spacing adjusting screw rod to move towards each other, thus the side frame is driven to rotate towards the position between the connecting rod frame and the side frame to be welded, the new tower joint is driven to be inclined to move downwards, and the standard tower joint is filled into the side frame to be filled into the side frame through the vertical adjusting screw rod when the buffer frame is well when the side frame is adjusted to be matched with the vertical adjusting screw rod to be inclined, and then filled into the standard tower joint is required to be filled into the standard frame, then the side net rack is driven to move downwards, and the side frame of the tower standard section which is too high can be added.

The aim of the invention can be achieved by adopting the following technical scheme:

the utility model provides a novel processing equipment of pylon standard festival, includes the base, first side bearer and second side bearer are installed respectively to the both sides at base top, second side bearer and the inboard top department of first side bearer are installed second vertical groove frame and first vertical groove frame respectively through the carousel, the inside edge of first vertical groove frame is equipped with vertical lift drive subassembly in the first vertical groove frame axial, the inboard edge of second vertical groove frame is equipped with vertical spacing in the second vertical groove frame axial, the outside cover of vertical spacing is equipped with second L type sliding tray, and the outside cover of vertical lift drive subassembly is equipped with first L type sliding tray, the inboard of first L type sliding tray and the inboard of second L type sliding tray all are equipped with buffer connection frame subassembly along respective axial direction, the buffer connection frame subassembly both sides on the first L type sliding tray run through and install horizontal spacing adjustment drive subassembly, run through on the buffer connection frame subassembly of second L type sliding tray inboard and be equipped with horizontal spacing adjustment auxiliary assembly, horizontal spacing adjustment subassembly and the inboard side frame is equipped with horizontal spacing adjustment drive subassembly along the horizontal drive subassembly of the inside side frame of electric motor-driven side frame and the side frame of the horizontal drive subassembly is equipped with horizontal drive assembly on the side frame axial direction of the side frame.

Preferably, the vertical lifting driving assembly comprises a vertical lifting motor, a vertical screw rod and a side vertical sliding rail, wherein the vertical lifting motor is installed at the top middle part of the first vertical groove frame, the vertical screw rod is installed at the output end of the vertical lifting motor penetrating through the first vertical groove frame, the side vertical sliding rail is installed on two sides of the inner wall of the first vertical groove frame along the axial direction of the first vertical groove frame, and a first L-shaped sliding groove is sleeved on the outer sides of the side vertical sliding rail and the vertical screw rod.

Preferably, the buffer connection frame assembly comprises a limit bar, a vertical sliding sleeve block, a buffer spring and a bottom fixing block, wherein the limit bar is arranged on the inner side of the first L-shaped sliding groove along the vertical axis of the first L-shaped sliding groove, the vertical sliding sleeve block is sleeved on the outer side of the limit bar, the bottom fixing block is arranged at the outer side bottom of the limit bar, the buffer spring is arranged at the top of the bottom fixing block, and the top of the buffer spring is arranged at the bottom of the vertical sliding sleeve block.

Preferably, the horizontal spacing adjustment driving assembly comprises a horizontal spacing adjustment screw, a first horizontal spacing groove strip and a first horizontal driving motor, the outer sides of a group of vertical sliding sleeve blocks are penetrated and installed with the first horizontal spacing groove strip, the inner side of the first horizontal spacing groove strip is provided with the horizontal spacing adjustment screw along the axial direction of the first horizontal spacing groove strip, one end middle part of the first horizontal spacing groove strip is provided with the first horizontal driving motor, and the output end of the first horizontal driving motor penetrates through the first horizontal spacing groove strip and is fixed with one end of the horizontal spacing adjustment screw.

Preferably, the horizontal spacing adjustment auxiliary assembly comprises a second transverse limit groove strip and a horizontal limit rod, the second transverse limit groove strip is installed in a penetrating mode on the outer side of the other group of vertical sliding sleeve blocks, the horizontal limit rod is installed on the inner side of the second transverse limit groove strip along the axial direction of the second transverse limit groove strip, and the side frame assembly is sleeved on the outer sides of the horizontal limit rod and the horizontal spacing adjustment screw rod.

Preferably, the side frame body assembly comprises a side frame, a U-shaped limit groove and an underframe, the side frame is sleeved on the outer sides of the horizontal limit rod and the horizontal spacing adjusting screw, the two ends of the horizontal spacing adjusting screw are opposite in rod body threads and are respectively meshed with the side frame at two ends, the U-shaped limit groove is arranged on the opposite sides of the side frame at equal intervals, and the underframe is arranged at the bottom of the side frame.

Preferably, the horizontal movement adjusting assembly comprises a strip-type limiting groove, a horizontal adjusting screw and a horizontal movement motor, wherein the strip-type limiting groove is axially arranged along the top of the base, the inner side of the strip-type limiting groove is axially provided with the horizontal adjusting screw, one end of the outer side of the strip-type limiting groove is provided with the horizontal movement motor, the output end of the horizontal movement motor penetrates through the strip-type limiting groove and is fixed with the other end of the horizontal adjusting screw, and the outer side of the horizontal adjusting screw is sleeved with a horizontal movement sliding block.

Preferably, the electric lifting support assembly comprises a vertical electric lifting rod and a U-shaped support frame, the top of the horizontal moving sliding block is provided with the vertical electric lifting rod, the output end of the vertical electric lifting rod is provided with the U-shaped support frame, and the inner side of the U-shaped support frame is provided with a sponge layer.

Preferably, the gear rotary driving assembly comprises a rotating motor, a driving gear, a rotating rod and a driven gear, the rotating motor is mounted at the bottom of the inner wall of the second side frame, the driving gear is mounted at the output end of the rotating motor, the rotating rod is mounted at the top of the inner wall of the second side frame through a bearing, the driven gear is sleeved on the outer side of the rotating rod, the driven gear and the driving gear are meshed with each other, and the rotating rod penetrates through the second side frame and is fixed with the turntable.

A processing method of processing equipment of a novel tower standard section comprises the following steps:

step 1: the side frames of the tower standard sections are placed on the side net racks and limited by the U-shaped limiting grooves, and are supported by the underframe;

step 2: placing a connecting rod frame to be welded on the U-shaped supporting frame, and then adjusting to a position to be welded between the side frames of the two groups of tower standard sections;

step 3: starting a first horizontal driving motor to drive a horizontal interval adjusting screw to rotate, and driving a side net rack to move to a position where welding is required between a connecting rod rack and a side frame of a tower standard section in opposite directions through the horizontal interval adjusting screw to be in close contact;

step 4: welding the joint, starting a vertical electric lifting rod to separate the U-shaped support frame after the welding is finished, then putting a new connecting rod frame, and then welding again;

step 5: after welding, starting a rotating motor to drive a driving gear to rotate, driving a driven gear to drive a turntable through the driving gear, driving a first vertical groove frame to rotate, further driving a first L-shaped sliding groove through the first vertical groove frame, and then driving a vertical sliding sleeve block to drive a first transverse limiting groove strip and a horizontal interval adjusting screw rod, so that a side net rack is driven to rotate to a horizontal inclined downward position;

step 6: then taking out the welded tower standard section and loading the welded tower standard section into a side frame of a new tower standard section again;

step 7: buffering is carried out by matching the vertical sliding sleeve block with a buffer spring when the side frame of the new tower standard section is installed;

step 8: when the side frame of the added tower standard section is too high, the vertical lifting motor can be started to drive the vertical screw rod to rotate, the first L-shaped sliding groove is adjusted to move downwards through the vertical screw rod, and then the side net frame is driven to move downwards, so that the side frame of the tower standard section which is too high can be added.

The beneficial technical effects of the invention are as follows:

the invention provides a novel tower standard joint machining device and a novel tower standard joint machining method, a side frame of the tower standard joint is placed on a side frame and limited by a U-shaped limiting groove, a connecting rod frame to be welded is placed on the U-shaped supporting frame through a bottom frame support, then the side frame is regulated to a position to be welded between the side frames of two groups of tower standard joints, a first horizontal driving motor is started to drive a horizontal spacing adjusting screw to rotate, the side frame is driven by the horizontal spacing adjusting screw to move to the position to be welded between the connecting rod frame and the side frame of the tower standard joint in opposite directions, the connecting position is welded, then a vertical electric lifting rod is started to separate the U-shaped supporting frame, then the U-shaped supporting frame is placed into the side frame for secondary welding, a rotating motor is started to drive a driving gear to rotate after welding, a driven gear is driven by the driving gear, a turntable is driven by the driven gear, then a first vertical groove frame is driven to rotate, a first L-shaped sliding groove is further driven by the first vertical sliding sleeve block, then the first horizontal spacing groove strip and the horizontal spacing adjusting screw are driven to rotate to the position to be welded between the connecting rod frame and the side frame, then the vertical sliding sleeve block is driven to move vertically downwards, the vertical tower frame is inclined to the position to be good, the vertical frame can be placed in the side frame through the side frame to be matched with the side frame through the vertical sliding sleeve, and the buffer frame when the high-shaped standard joint is moved to be inserted into the side frame through the high-speed buffer frame, and the high-speed buffer joint can be installed in the side frame, and the high standard joint can be screwed into the side frame, and then a high standard joint can be screwed into a standard joint, and then is moved down in a high standard joint, and a high standard joint can and a high standard joint can and a high quality buffer frame and a high quality can and a high quality buffer.

Drawings

FIG. 1 is a schematic view of a first perspective view of the whole apparatus of a preferred embodiment of a novel tower section machining apparatus and method in accordance with the present invention;

FIG. 2 is a schematic view of a second perspective view of the entire apparatus of a preferred embodiment of a novel tower section machining apparatus and method in accordance with the present invention;

FIG. 3 is a perspective view of a third perspective view of the apparatus in its entirety of a preferred embodiment of a novel tower section machining apparatus and method in accordance with the present invention;

FIG. 4 is an enlarged view of the structure at b of a preferred embodiment of a new tower section machining apparatus and method in accordance with the present invention;

FIG. 5 is an enlarged view of the structure at a of a preferred embodiment of a novel tower section machining apparatus and method in accordance with the present invention;

FIG. 6 is a side cross-sectional view of a rotating frame assembly of a preferred embodiment of a novel tower section machining apparatus and method in accordance with the present invention;

FIG. 7 is a schematic view showing a structure of a buffer frame assembly according to a preferred embodiment of a novel tower standard joint processing apparatus and a processing method thereof according to the present invention.

In the figure: the device comprises a 1-base, a 2-first side frame, a 3-strip type limit groove, a 4-side net frame, a 5-U type limit groove, a 6-U type support frame, a 7-vertical electric lifting rod, an 8-horizontal moving slide block, a 9-horizontal adjusting screw, a 10-second side frame, an 11-first horizontal limit groove strip, a 12-first horizontal driving motor, a 13-horizontal interval adjusting screw, a 14-vertical lifting motor, a 15-first vertical groove frame, a 16-first L-shaped slide groove, a 17-vertical sliding sleeve block, a 18-underframe, a 19-second vertical groove frame, a 20-second L-shaped slide groove, a 21-second horizontal limit groove strip, a 22-vertical screw, a 23-side vertical slide rail, a 24-bottom fixing block, a 25-limit strip, a 26-buffer spring, a 27-turntable, a 28-driven gear, a 29-rotating rod, a 30-rotating motor and a 31-driving gear.

Detailed Description

In order to make the technical solution of the present invention more clear and obvious to those skilled in the art, the present invention will be described in further detail with reference to examples and drawings, but the embodiments of the present invention are not limited thereto.

As shown in fig. 1-7, the processing equipment for a novel tower standard joint provided by the embodiment comprises a base 1, a first side frame 2 and a second side frame 10 are respectively installed on two sides of the top of the base 1, a second vertical groove frame 19 and a first vertical groove frame 15 are respectively installed on the inner sides of the second side frame 10 and the first side frame 2 through a turntable 27, a vertical lifting driving component is axially arranged in the first vertical groove frame 15, a vertical limiting strip is axially arranged on the inner side of the second vertical groove frame 19 along the second vertical groove frame 19, a second L-shaped sliding groove 20 is sleeved on the outer side of the vertical limiting strip, a first L-shaped sliding groove 16 is sleeved on the outer side of the vertical lifting driving component, buffer connecting frame components on the inner side of the first L-shaped sliding groove 16 and the inner side of the second L-shaped sliding groove 20 are respectively axially provided with a buffer connecting frame component, a horizontal spacing adjusting driving component is penetratingly installed on two sides of the buffer connecting frame components on the first L-shaped sliding groove 16, a horizontal spacing component penetrating through the buffer connecting frame components on the inner side of the second L-shaped sliding groove 20 is axially provided with a horizontal spacing component penetrating through the second L-shaped sliding frame 20, an auxiliary driving component is axially arranged on the inner side of the second L-shaped sliding frame 16, and the auxiliary horizontal sliding frame is provided with an auxiliary horizontal sliding component is rotatably mounted on the side of the second L-shaped sliding frame 20, and the auxiliary horizontal frame is rotatably mounted on the side of the base 1.

The method comprises the steps of placing the side frames of the tower standard sections on the side frames 4 and limiting the side frames through a U-shaped limiting groove 5, supporting the side frames through a bottom frame 18, placing the connecting rod frames to be welded on the U-shaped supporting frame 6, adjusting the connecting rod frames to the positions, needing to be welded, between the side frames of the two groups of tower standard sections, of the connecting rod frames, starting a first horizontal driving motor 12 to drive a horizontal spacing adjusting screw 13 to rotate, driving the side frames 4 to move to the positions, needing to be welded, of the connecting rod frames and the side frames of the tower standard sections in a close contact mode through the horizontal spacing adjusting screw 13, welding the connecting positions, starting a vertical electric lifting rod 7 to separate the U-shaped supporting frame 6 after the welding is completed, then placing a new connecting rod frame into the connecting rod frames, then welding again, starting a rotating motor 30 to drive a driving gear 31 to rotate, driving the driven gear 28 through the driving gear 28, driving the rotating disk 27 through the driven gear 28, then driving the first vertical groove frame 15 to rotate, further driving the first L-shaped sliding groove 16 through the first vertical groove 15, then driving a vertical sliding sleeve block 17 to drive the first horizontal spacing groove 11 and the horizontal spacing adjusting screw 13, then driving the vertical tower frame 4 to rotate to the position, then, and then the side frames 4 to be inclined to the side frames to be placed into the side frames to the high side frames through the vertical frame 22, and then being matched with the vertical frame 22, and the side frames to be filled into the standard section, and the high-speed frame section, and the high-speed adjusting screw frame is filled into the standard section.

In this embodiment, the vertical lifting driving assembly includes a vertical lifting motor 14, a vertical screw 22 and a lateral vertical sliding rail 23, the vertical lifting motor 14 is installed at the top middle part of the first vertical slot frame 15, the vertical screw 22 is installed through the first vertical slot frame 15 at the output end of the vertical lifting motor 14, the lateral vertical sliding rail 23 is installed on two sides of the inner wall of the first vertical slot frame 15 along the axial direction of the first vertical slot frame 15, and the lateral vertical sliding rail 23 and the outer side of the vertical screw 22 are sleeved with the first L-shaped sliding groove 16.

In this embodiment, the buffer connection frame assembly includes a limit bar 25, a vertical sliding sleeve block 17, a buffer spring 26 and a bottom fixing block 24, the inner side of the first L-shaped sliding groove 16 is provided with the limit bar 25 along the vertical axis of the first L-shaped sliding groove 16, the outer side of the limit bar 25 is sleeved with the vertical sliding sleeve block 17, the bottom fixing block 24 is installed at the bottom of the outer side of the limit bar 25, the buffer spring 26 is installed at the top of the bottom fixing block 24, and the top of the buffer spring 26 is installed at the bottom of the vertical sliding sleeve block 17.

In this embodiment, the horizontal spacing adjustment driving assembly includes a horizontal spacing adjustment screw 13, a first horizontal spacing groove 11 and a first horizontal driving motor 12, the outside of a group of vertical sliding sleeve blocks 17 is penetrated and installed with the first horizontal spacing groove 11, the inside of the first horizontal spacing groove 11 is installed with the horizontal spacing adjustment screw 13 along the axial direction of the first horizontal spacing groove 11, one end middle part of the first horizontal spacing groove 11 is installed with the first horizontal driving motor 12, and the output end of the first horizontal driving motor 12 is penetrated and fixed with one end of the horizontal spacing adjustment screw 13.

In this embodiment, the horizontal spacing adjustment auxiliary assembly includes a second transverse limit groove strip 21 and a horizontal limit rod, the outer side of the other group of vertical sliding sleeve blocks 17 is penetrated and provided with the second transverse limit groove strip 21, the inner side of the second transverse limit groove strip 21 is provided with the horizontal limit rod along the axial direction of the second transverse limit groove strip 21, and the outer sides of the horizontal limit rod and the horizontal spacing adjustment screw 13 are sleeved with the side frame assembly.

In this embodiment, the side frame body assembly includes side rack 4, U type spacing groove 5 and chassis 18, and the outside cover of horizontal gag lever post and horizontal interval adjusting screw 13 is equipped with side rack 4, and the opposite face equidistant of side rack 4 installs U type spacing groove 5, and chassis 18 is installed to the bottom of side rack 4 to the opposite end body of rod screw thread of horizontal interval adjusting screw 13 and respectively with the meshing of the side rack 4 at both ends.

In this embodiment, horizontal migration adjusting part includes bar type spacing groove 3, horizontal adjusting screw 9 and horizontal migration motor, and bar type spacing groove 3 is equipped with horizontal adjusting screw 9 along bar type spacing groove 3 axial along the top of base 1 on the axial, and horizontal migration motor is installed to the outside one end of bar type spacing groove 3, and horizontal migration motor's output runs through bar type spacing groove 3 and horizontal adjusting screw 9's the other end is fixed, and the outside cover of horizontal adjusting screw 9 is equipped with horizontal migration slider 8.

In this embodiment, electric lift supporting component includes vertical electric lift pole 7 and U type support frame 6, and vertical electric lift pole 7 is installed at the top of horizontal migration slider 8, and U type support frame 6 is installed to the output of vertical electric lift pole 7, and the inboard of U type support frame 6 is equipped with the sponge layer.

In this embodiment, the gear rotation driving assembly includes a rotating motor 30, a driving gear 31, a rotating rod 29 and a driven gear 28, the rotating motor 30 is installed at the bottom of the inner wall of the second side frame 10, the driving gear 31 is installed at the output end of the rotating motor 30, the rotating rod 29 is installed at the top of the inner wall of the second side frame 10 through a bearing, the driven gear 28 is sleeved on the outer side of the rotating rod 29, the driven gear 28 and the driving gear 31 are meshed with each other, and the rotating rod 29 penetrates through the second side frame 10 to be fixed with the turntable 27.

A processing method of processing equipment of a novel tower standard section comprises the following steps:

step 1: the side frames of the tower standard sections are placed on the side net racks 4 and limited by the U-shaped limiting grooves 5 and are supported by the underframe 18;

step 2: placing a connecting rod frame to be welded on the U-shaped supporting frame 6, and then adjusting to a position to be welded between the side frames of the two groups of tower standard sections;

step 3: starting a first horizontal driving motor 12 to drive a horizontal spacing adjusting screw 13 to rotate, and driving a side net rack 4 to move oppositely to a position where welding is required between a connecting rod rack and a side frame of a tower standard section through the horizontal spacing adjusting screw 13;

step 4: welding the joint, starting a vertical electric lifting rod 7 to separate the U-shaped support frame 6 after the welding is finished, then putting a new connecting rod frame, and then welding again;

step 5: after welding, a rotating motor 30 is started to drive a driving gear 31 to rotate, a driven gear 28 is driven by the driving gear 31, a turntable 27 is driven by the driven gear 28, then a first vertical groove frame 15 is driven to rotate, a first L-shaped sliding groove 16 is further driven by the first vertical groove frame 15, then a vertical sliding sleeve block 17 is driven, and then a first transverse limiting groove strip 11 and a horizontal interval adjusting screw 13 are driven, so that the side net frame 4 is driven to rotate to a horizontal inclined downward position;

step 6: then taking out the welded tower standard section and loading the welded tower standard section into a side frame of a new tower standard section again;

step 7: buffering is carried out by matching the vertical sliding sleeve block 17 with the buffer spring 26 when the side frame of the new tower standard section is assembled;

step 8: when the side frame of the added tower standard section is too high, the vertical lifting motor 14 can be started to drive the vertical screw rod 22 to rotate, the first L-shaped sliding groove 16 is adjusted to move downwards through the vertical screw rod 22, and then the side net frame 4 is driven to move downwards, so that the side frame of the excessive tower standard section can be added.

The above is merely a further embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art will be able to apply equivalents and modifications according to the technical solution and the concept of the present invention within the scope of the present invention disclosed in the present invention.

Claims (5)

1. Novel processing equipment of pylon standard festival, its characterized in that: the horizontal distance adjusting device comprises a base (1), a first side frame (2) and a second side frame (10) are respectively arranged on two sides of the top of the base (1), a second vertical groove frame (19) and a first vertical groove frame (15) are respectively arranged at the inner side top of the second side frame (10) and the inner side top of the first side frame (2) through a turntable (27), a vertical lifting driving component is axially arranged on the first vertical groove frame (15) along the inner side of the first vertical groove frame (15), a vertical limiting strip is axially arranged on the inner side of the second vertical groove frame (19) along the second vertical groove frame (19), a second L-shaped sliding groove (20) is sleeved on the outer side of the vertical limiting strip, a first L-shaped sliding groove (16) is sleeved on the outer side of the vertical lifting driving component, buffer connecting frame components are respectively arranged on the inner side of the first L-shaped sliding groove (16) and the inner side of the second L-shaped sliding groove (20) along the respective axial directions, a horizontal distance adjusting component is arranged on the inner side of the first L-shaped sliding groove (16) along the horizontal driving component, a horizontal distance adjusting component is arranged on the inner side of the horizontal sliding component and the horizontal sliding component (1) along the two ends of the horizontal distance adjusting component, a horizontal distance adjusting component is arranged on the horizontal distance adjusting component and the horizontal sliding component (1) and can be horizontally driven on the base, an electric lifting support assembly is arranged at the top of the horizontal movement adjusting assembly, and a gear rotation driving assembly for driving the turntable (27) to rotate is arranged at the inner side of the second side frame (10);

the vertical lifting driving assembly comprises a vertical lifting motor (14), a vertical screw rod (22) and a side vertical sliding rail (23), wherein the vertical lifting motor (14) is installed at the top middle part of the first vertical groove frame (15), the vertical screw rod (22) is installed at the output end of the vertical lifting motor (14) penetrating through the first vertical groove frame (15), the side vertical sliding rail (23) is installed on two sides of the inner wall of the first vertical groove frame (15) along the axial direction of the first vertical groove frame (15), and a first L-shaped sliding groove (16) is sleeved on the outer sides of the side vertical sliding rail (23) and the vertical screw rod (22);

the buffer connecting frame assembly comprises a limit bar (25), a vertical sliding sleeve block (17), a buffer spring (26) and a bottom fixing block (24), wherein the limit bar (25) is arranged on the inner side of the first L-shaped sliding groove (16) along the vertical axis of the first L-shaped sliding groove (16), the vertical sliding sleeve block (17) is sleeved on the outer side of the limit bar (25), the bottom fixing block (24) is arranged at the bottom of the outer side of the limit bar (25), the buffer spring (26) is arranged at the top of the bottom fixing block (24), and the top of the buffer spring (26) is arranged at the bottom of the vertical sliding sleeve block (17);

the horizontal spacing adjustment driving assembly comprises a horizontal spacing adjustment screw (13), a first horizontal limiting groove strip (11) and a first horizontal driving motor (12), wherein the first horizontal limiting groove strip (11) is arranged on the outer side of a group of vertical sliding sleeve blocks (17) in a penetrating mode, the horizontal spacing adjustment screw (13) is arranged on the inner side of the first horizontal limiting groove strip (11) along the axial direction of the first horizontal limiting groove strip (11), the first horizontal driving motor (12) is arranged at the middle of one end of the first horizontal limiting groove strip (11), and the output end of the first horizontal driving motor (12) penetrates through the first horizontal limiting groove strip (11) and is fixed with one end of the horizontal spacing adjustment screw (13);

the horizontal spacing adjustment auxiliary assembly comprises a second horizontal limiting groove strip (21) and a horizontal limiting rod, the outer side of the other group of vertical sliding sleeve blocks (17) is provided with the second horizontal limiting groove strip (21) in a penetrating mode, the inner side of the second horizontal limiting groove strip (21) is provided with the horizontal limiting rod along the axial direction of the second horizontal limiting groove strip (21), and the outer sides of the horizontal limiting rod and the horizontal spacing adjustment screw rod (13) are provided with side frame assemblies in a sleeved mode;

the side frame body assembly comprises a side frame (4), a U-shaped limiting groove (5) and a bottom frame (18), wherein the side frame (4) is sleeved on the outer side of the horizontal limiting rod and the outer side of the horizontal spacing adjusting screw (13), the threads of the rod bodies at the two ends of the horizontal spacing adjusting screw (13) are opposite and are respectively meshed with the side frame (4) at the two ends, the U-shaped limiting groove (5) is arranged on the opposite surface of the side frame (4) at equal intervals, and the bottom frame (18) is arranged at the bottom of the side frame (4).

2. A new tower standard knot machining apparatus according to claim 1, wherein: the horizontal movement adjusting assembly comprises a strip-shaped limiting groove (3), a horizontal adjusting screw (9) and a horizontal movement motor, wherein the strip-shaped limiting groove (3) is axially arranged on the top of the base (1), the inner side of the strip-shaped limiting groove (3) is axially provided with the horizontal adjusting screw (9) along the strip-shaped limiting groove (3), the horizontal movement motor is arranged at one end of the outer side of the strip-shaped limiting groove (3), the output end of the horizontal movement motor penetrates through the strip-shaped limiting groove (3) and is fixed with one end of the horizontal adjusting screw (9), and a horizontal movement sliding block (8) is sleeved on the outer side of the horizontal adjusting screw (9).

3. A new tower standard knot machining apparatus according to claim 2, wherein: the electric lifting support assembly comprises a vertical electric lifting rod (7) and a U-shaped support frame (6), the vertical electric lifting rod (7) is installed at the top of the horizontal movement sliding block (8), the U-shaped support frame (6) is installed at the output end of the vertical electric lifting rod (7), and a sponge layer is arranged on the inner side of the U-shaped support frame (6).

4. A new tower section machining apparatus according to claim 3, wherein: the gear rotary driving assembly comprises a rotary motor (30), a driving gear (31), a rotating rod (29) and a driven gear (28), the rotary motor (30) is installed at the bottom of the inner wall of the second side frame (10), the driving gear (31) is installed at the output end of the rotary motor (30), the rotating rod (29) is installed at the top of the inner wall of the second side frame (10) through a bearing, the driven gear (28) is sleeved on the outer side of the rotating rod (29), the driven gear (28) is meshed with the driving gear (31), and the rotating rod (29) penetrates through the second side frame (10) to be fixed with the turntable (27).

5. The method for processing the novel tower standard joint processing equipment according to claim 4, wherein the method comprises the following steps: the method comprises the following steps:

step 1: the side frames of the tower standard sections are placed on the side net racks (4) and limited by the U-shaped limiting grooves (5) and are supported by the underframe (18);

step 2: placing a connecting rod frame to be welded on a U-shaped supporting frame (6), and then adjusting to a position to be welded between the side frames of two groups of tower standard sections;

step 3: starting a first horizontal driving motor (12) to drive a horizontal interval adjusting screw (13) to rotate, and driving a side net rack (4) to move towards each other through the horizontal interval adjusting screw (13) to be in close contact with a position to be welded between a connecting rod rack and a side frame of a tower standard section;

step 4: welding the joint, starting a vertical electric lifting rod (7) to separate the U-shaped support frame (6) after the welding is finished, then putting a new connecting rod frame, and then welding again;

step 5: starting a rotating motor (30) to drive a driving gear (31) to rotate after welding is finished, driving a driven gear (28) through the driving gear (31), driving a rotary table (27) through the driven gear (28), then driving a first vertical groove frame (15) to rotate, further driving a first L-shaped sliding groove (16) through the first vertical groove frame (15), then driving a vertical sliding sleeve block (17) to drive a first transverse limiting groove strip (11) and a horizontal interval adjusting screw (13), and further driving a side net rack (4) to rotate to a horizontal inclined downward position;

step 6: then taking out the welded tower standard section and loading the welded tower standard section into a side frame of a new tower standard section again;

step 7: buffering is carried out by matching the vertical sliding sleeve block (17) with the buffer spring (26) when the side frame of the new tower standard section is assembled;

step 8: when the side frame of the added tower standard section is too high, the vertical lifting motor (14) can be started to drive the vertical screw rod (22) to rotate, the first L-shaped sliding groove (16) is adjusted to move downwards through the vertical screw rod (22), and then the side net frame (4) is driven to move downwards, so that the side frame of the tower standard section which is too high can be added.