CN216502915U

CN216502915U - Use nimble plasma groove preparation frock

Info

Publication number: CN216502915U
Application number: CN202120703346.3U
Authority: CN
Inventors: 东岩; 陈拥; 刘惠文; 牛志强; 王小伟
Original assignee: China Energy Engineering Group Tianjin Electric Power Construction Co ltd
Current assignee: China Energy Engineering Group Tianjin Electric Power Construction Co ltd
Priority date: 2021-04-07
Filing date: 2021-04-07
Publication date: 2022-05-13
Anticipated expiration: 2031-04-07

Abstract

The utility model relates to a flexible-to-use plasma groove machining tool which comprises a base and a chuck fixing base, wherein a shell installed on the base is arranged on one side of a chuck fixing support, a concentric fixing chuck is arranged on the other side of the chuck fixing support, and an inclination adjusting assembly is arranged on the upper portion of the chuck fixing support. The concentric fixed chuck with the inner fluted disc and the outer fluted disc, the inner fluted disc with the Archimedes thread lines, the clamping block and the chuck clamping driving rod are arranged, so that a workpiece can be clamped concentrically, the machining efficiency is improved, the inclination adjustment assembly is arranged, so that the inclination adjustment of the rotary worktable is facilitated, the front connecting rod and the rear connecting rod which are provided with the sliding driving assembly, the lifting connecting rod provided with the lifting driving assembly, the guide support provided with the sliding groove and the angle adjustment rod are arranged, so that the cutting gun can be adjusted conveniently, the use flexibility is improved, the workpiece is accurately positioned and is positioned at the optimal cutting position, and the cutting quality is ensured.

Description

Use nimble plasma groove preparation frock

Technical Field

The utility model relates to the technical field of plasma cutting processing equipment, in particular to a flexibly-used plasma groove processing tool.

Background

High-alloy materials such as P92, P91, stainless steel and the like are usually used in electric power industry welder training work, the flame processing performance of the materials is poor, plasma cutting is usually needed in processing, and the plasma cutting is a processing method which utilizes the heat of a high-temperature plasma arc to melt metal parts or parts at a workpiece notch and removes the molten metal by means of the momentum of high-speed plasma to form the notch.

The plasma cutting process of the set material is analyzed by testing the plasma cutting process of the novel pipe of the training center, and the performance of the cutting groove is subjected to related test analysis to verify the feasibility of plasma cutting.

At present, the pipeline groove machining is carried out by adopting a machining mode, and the currently used plasma groove machining tool is complex in clamping the workpiece during groove machining, so that the efficiency is lower, the use flexibility is unsatisfactory, the workpiece cannot be placed at the optimal cutting position, and the cutting quality cannot be ensured.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provides a flexible-to-use plasma groove machining tool.

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

a flexible plasma groove processing tool comprises a base and a chuck fixing base, wherein the chuck fixing base is arranged on the base, a chuck fixing support is arranged on the chuck fixing base, a shell arranged on the base is arranged on one side of the chuck fixing support, an electric control cabinet is arranged in the shell, a concentric fixing chuck is arranged on the other side of the chuck fixing support, an inclination adjusting component is arranged on the upper portion of the chuck fixing support, a rotating motor is arranged on the inclination adjusting component, the output end of the rotating motor is coaxially connected with the concentric fixing chuck, a rotating workbench is arranged between the concentric fixing chuck and the rotating motor, the rotating workbench is coaxially and fixedly connected onto the output shaft of the rotating motor, a connecting frame is connected above the inclination adjusting component, a guide support is arranged on the upper portion of the connecting frame, a sliding groove is formed in the guide support, and a moving block slides along the sliding groove on the guide support, the movable block and the guide bracket are locked and fixed through a second locking bolt, a front connecting rod and a rear connecting rod which are perpendicular to the guide bracket are fixedly connected to the movable block, a sliding driving assembly is connected to the front connecting rod and the rear connecting rod, a lifting connecting rod is arranged on one side of the sliding driving assembly, a lifting driving assembly is connected to the lifting connecting rod and is connected to the sliding driving assembly, a third mounting sleeve is vertically and fixedly connected to the bottom of the lifting connecting rod, an angle adjusting rod coaxially penetrates through the third mounting sleeve, one end of the angle adjusting rod is detachably mounted in the third mounting sleeve, a cutting torch clamp is mounted at the other end of the angle adjusting rod, a cutting torch is clamped on the cutting torch clamp, a connecting pipe communicated with the inside of the casing is mounted on the outer wall of the casing, a cable is connected to the top end of the cutting torch, the other end of the cable penetrates through the connecting pipe and is inserted into the casing to be connected with an electric appliance control cabinet, and a plurality of limiting grooves in the radial direction are circumferentially arranged on one side, which is far away from the rotary worktable, of the concentric fixing chuck, the limiting device is characterized in that a clamping block is arranged in each limiting groove, an external workpiece is clamped on a fixed chuck through the clamping block, an inner fluted disc is coaxially arranged in the concentric fixed chuck, an Archimedes thread is arranged on the end wall of the inner fluted disc, a fluted disc meshed with the Archimedes thread is arranged on the clamping block, an outer fluted disc is coaxially meshed on the inner fluted disc, a connecting sleeve is coaxially and fixedly connected on the outer fluted disc, through holes for an output shaft of a rotating motor to pass through are formed in the inner fluted disc and the outer fluted disc, one end of the connecting sleeve penetrates out of the concentric fixed chuck and is coaxially sleeved on the output shaft of the rotating motor, a chuck clamping driving rod is fixedly connected on the connecting sleeve, and the chuck clamping driving rod is located between the rotary worktable and the concentric fixed chuck.

The base is formed by welding profile steel.

A telescopic pipe is connected between the connecting pipe and the cutting gun and sleeved outside the cable.

The inclination adjustment subassembly is including installing the drive seat on the chuck fixed bolster, the rotating electrical machines is installed on the lateral wall of drive seat, it has the pivot to rotate between the front end of drive seat and the inner wall of chuck fixed bolster, coaxial ann has the arc fluted disc in the pivot, the meshing has the gear on the arc fluted disc, coaxial rigid coupling has the transfer line on the gear, the other end of transfer line rotates on the drive seat, it has driven bevel gear to lie in coaxial ann on the transfer line between drive seat and the gear, the meshing has drive bevel gear on the driven bevel gear, coaxial rigid coupling has the dwang on the drive bevel gear, the outer end of dwang rotates and wears out the coaxial ann of chuck fixed bolster and has adjustment handle.

The sliding driving assembly comprises a second mounting sleeve sleeved on the front and rear connecting rods, a second driving gear is mounted on the second mounting sleeve in a rotating mode, one end of the second driving gear is connected with a second driving screwing handle, the second driving screwing handle is located on the outer side of the second mounting sleeve, and a second rack meshed with the second driving gear is arranged on the upper surface of the front and rear connecting rods from front to back.

The lifting driving assembly comprises a first mounting sleeve fixedly connected with a second mounting sleeve, the first mounting sleeve is sleeved on the lifting connecting rod, a first driving gear is rotatably arranged on the first mounting sleeve, one end of the first driving gear is connected with a first driving screwing hand, the first driving screwing hand is located on the outer side of the first mounting sleeve, a first rack meshed with the first driving gear is arranged on the side face of the lifting connecting rod from bottom to top, a first locking bolt is arranged on the back side of the first mounting sleeve, and the lifting connecting rod and the first mounting sleeve are locked through the first locking bolt.

The cutting gun is a water-cooling cutting gun.

The utility model has the beneficial effects that: the concentric fixed chuck with the inner fluted disc and the outer fluted disc, the inner fluted disc with the Archimedes thread lines, the clamping block and the chuck clamping driving rod are arranged, so that a workpiece can be clamped concentrically, the machining efficiency is improved, the inclination adjustment assembly is arranged, so that the inclination adjustment of the rotary worktable is facilitated, the front connecting rod and the rear connecting rod which are provided with the sliding driving assembly, the lifting connecting rod provided with the lifting driving assembly, the guide support provided with the sliding groove and the angle adjustment rod are arranged, so that the cutting gun can be adjusted conveniently, the use flexibility is improved, the workpiece is accurately positioned and is positioned at the optimal cutting position, and the cutting quality is ensured.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a right side view of the present invention;

FIG. 3 is a schematic view of the connection between the inner and outer tooth discs and the clamping block according to the present invention;

FIG. 4 is a schematic view of the tilt adjustment assembly of the present invention;

in the figure: 1-a base; 2-a shell; 3-adjusting a handle; 4-a chuck fixing bracket; 5-a chuck fixing base; 6-a driving seat; 7-a rotating electrical machine; 8-rotating the worktable; 9-concentric fixed chuck; 10-a workpiece; 11-a tilt adjustment assembly; 12-a connecting frame; 13-a guide bracket; 14-a connecting tube; 15-a telescopic tube; 16-installing a second sleeve; 17-a cutting gun; 18-a lifting connecting rod; 19-installing the first sleeve; 20-driving a first screw driver; 21-front and rear connecting rods; 22-a burning torch clamp; 23-a clamping block; 24-a moving block; 25-a chute; 26-installing a third sleeve; 27-angle adjusting rod; 28-chuck grip drive rod; 29-connecting the sleeve; 30-archimedes thread; 31-driving a second screw driver; 32-inner fluted disc; 33-external toothed disc; 111-a rotating shaft; 112-an arc-shaped fluted disc; 113-driven bevel gear; 114-drive bevel gear; 115-gear;

the following detailed description will be made in conjunction with embodiments of the present invention with reference to the accompanying drawings.

Detailed Description

The utility model is further illustrated by the following examples in conjunction with the accompanying drawings:

as shown in the figure, a plasma groove machining tool flexible in use comprises a base 1 and a chuck fixing base 5, wherein the chuck fixing base 5 is installed on the base 1, a chuck fixing support 4 is installed on the chuck fixing base 5, a shell 2 installed on the base 1 is arranged on one side of the chuck fixing support 4, an electric appliance control cabinet is installed in the shell 2, a concentric fixing chuck 9 is arranged on the other side of the chuck fixing support 4, an inclination adjusting component 11 is installed on the upper portion of the chuck fixing support 4, a rotating motor 7 is installed on the inclination adjusting component 11, the output end of the rotating motor 7 is coaxially connected with the concentric fixing chuck 9, a rotating workbench 8 is arranged between the concentric fixing chuck 9 and the rotating motor 7, the rotating workbench 8 is coaxially and fixedly connected onto the output shaft of the rotating motor 7, a connecting frame 12 is connected above the inclination adjusting component 11, a guide support 13 is installed on the upper portion of the connecting frame 12, a sliding groove 25 is arranged on the guide support 13, a moving block 24 slides on the guide support 13 along the sliding groove 25, the moving block 24 and the guide support 13 are locked and fixed through a second locking bolt, a front connecting rod 21 and a rear connecting rod 21 which are perpendicular to the guide support 13 are fixedly connected to the moving block 24, a sliding driving component is connected to the front connecting rod 21 and the rear connecting rod 21, a lifting connecting rod 18 is arranged on one side of the sliding driving component, a lifting driving component is connected to the lifting connecting rod 18 and connected to the sliding driving component, a third mounting sleeve 26 is vertically and fixedly connected to the bottom of the lifting connecting rod 18, an angle adjusting rod 27 coaxially penetrates through the third mounting sleeve 26, one end of the angle adjusting rod 27 is detachably mounted in the third mounting sleeve 26, a cutting gun clamp 22 is mounted at the other end of the angle adjusting rod 27, a cutting gun 17 is clamped on the cutting gun clamp 22, and a connecting pipe 14 communicated with the interior of the housing 2 is mounted on the outer wall of the housing 2, the top end of a cutting gun 17 is connected with a cable, the other end of the cable penetrates through a connecting pipe 14 and is inserted into a shell 2 to be connected with an electric appliance control cabinet, a plurality of limiting grooves along the radius direction are circumferentially arranged on one side of a concentric fixed chuck 9 far away from a rotary worktable 8, a clamping block 23 is arranged in each limiting groove, an external workpiece 10 is clamped on the fixed chuck 9 through the clamping block 23, an inner fluted disc 32 is coaxially arranged in the concentric fixed chuck 9, an Archimedes thread 30 is arranged on the end wall of the inner fluted disc 32, a fluted disc meshed with the Archimedes thread 30 is arranged on the clamping block 23, an outer fluted disc 33 is coaxially meshed on the inner fluted disc 32, a connecting sleeve 29 is coaxially fixedly connected on the outer fluted disc 33, through holes for an output shaft of a rotary motor 7 to penetrate through are arranged on the inner fluted disc 32 and the outer fluted disc 33, one end of the connecting sleeve 29 penetrates through the concentric fixed chuck 9 to be coaxially sleeved on the output shaft of the rotary motor 7 and is fixedly connected with a chuck clamping driving rod 28, a chuck holding drive rod 28 is located between the rotary table 8 and the concentric fixed chuck 9.

The base 1 is formed by welding profile steel.

Between the connection tube 14 and the cutting torch 17 there is connected a telescopic tube 15, which telescopic tube 15 is fitted over the outside of the cable.

The inclination adjusting component 11 is including installing the drive seat 6 on chuck fixed bolster 4, the rotating electrical machines 7 is installed on the lateral wall of drive seat 6, it has pivot 111 to rotate between the front end of drive seat 6 and the inner wall of chuck fixed bolster 4, the coaxial ann has arc fluted disc 112 on pivot 111, the meshing has gear 115 on the arc fluted disc 112, coaxial rigid coupling has the transfer line on the gear 115, the other end of transfer line rotates on drive seat 6, it has driven bevel gear 113 to lie in the coaxial ann on the transfer line between drive seat 6 and the gear 115, the meshing has drive bevel gear 114 on the driven bevel gear 113, coaxial rigid coupling has the dwang on the drive bevel gear 114, the outer end of dwang is rotated and is worn out the coaxial ann of chuck fixed bolster 4 and has adjustment handle 3.

The sliding driving assembly comprises a second mounting sleeve 16 sleeved on the front and rear connecting rods 21, a second driving gear is rotatably mounted on the second mounting sleeve 16, one end of the second driving gear is connected with a second driving screwing handle 31, the second driving screwing handle 31 is located on the outer side of the second mounting sleeve 16, and a second rack meshed with the second driving gear is arranged on the upper surface of the front and rear connecting rods 21 from front to back.

The lifting driving assembly comprises a first mounting sleeve 19 fixedly connected with a second mounting sleeve 16, the first mounting sleeve 19 is sleeved on a lifting connecting rod 18, a first driving gear is rotatably arranged on the first mounting sleeve 19, one end of the first driving gear is connected with a first driving wrench 20, the first driving wrench 20 is located on the outer side of the first mounting sleeve 19, a first rack meshed with the first driving gear is arranged on the side face of the lifting connecting rod 18 from bottom to top, a first locking bolt is arranged on the rear side of the first mounting sleeve 19 in a threaded mode, and the lifting connecting rod 18 and the first mounting sleeve 19 are locked through the first locking bolt.

The cutting torch 17 is a water-cooling cutting torch.

When the cutting machine is used, a workpiece 10 to be machined is placed on the concentric fixed chuck 9, an operator drives the chuck to clamp the driving rod 28, the clamping block 23 is driven by the outer fluted disc 33 and the inner fluted disc 32 provided with the Archimedes thread 30 to concentrically clamp the workpiece 10, so that the workpiece 10 is conveniently concentrically clamped, the machining efficiency is improved, the operator rotates the adjusting handle 3 according to the machining requirement, the adjusting handle 3 drives the inclination adjusting assembly 11 to perform inclination adjustment on the rotating workbench 8, the front connecting rod 21 and the rear connecting rod 21 provided with the sliding driving assemblies, the lifting connecting rod 18 provided with the lifting driving assemblies, the guide support 13 provided with the sliding grooves 25 and the angle adjusting rod 27 are conveniently adjusted, the use flexibility is improved, and the workpiece 10 is accurately positioned and located at the optimal cutting position so as to ensure the cutting quality.

The utility model has been described in connection with the accompanying drawings, it is to be understood that the utility model is not limited to the specific embodiments disclosed, but is intended to cover various modifications, adaptations or uses of the utility model, and all such modifications and variations are within the scope of the utility model.

Claims

1. A plasma groove machining tool flexible in use comprises a base (1) and a chuck fixing base (5), wherein the chuck fixing base (5) is installed on the base (1), and is characterized in that a chuck fixing support (4) is installed on the chuck fixing base (5), a shell (2) installed on the base (1) is arranged on one side of the chuck fixing support (4), an electric appliance control cabinet is installed in the shell (2), a concentric fixing chuck (9) is arranged on the other side of the chuck fixing support (4), an inclination adjusting assembly (11) is installed on the upper portion of the chuck fixing support (4), a rotating motor (7) is installed on the inclination adjusting assembly (11), the output end of the rotating motor (7) is coaxially connected with the concentric fixing chuck (9), a rotating workbench (8) is arranged between the concentric fixing chuck (9) and the rotating motor (7), and the rotating workbench (8) is coaxially and fixedly connected to the output shaft of the rotating motor (7), a connecting frame (12) is connected above the inclination adjusting component (11), a guide support (13) is arranged at the upper part of the connecting frame (12), a sliding groove (25) is arranged on the guide support (13), a moving block (24) slides along the sliding groove (25) on the guide support (13), the moving block (24) and the guide support (13) are locked and fixed through a locking bolt II, a front connecting rod (21) perpendicular to the guide support (13) is fixedly connected on the moving block (24), a sliding driving component is connected on the front connecting rod (21) and the rear connecting rod (21), a lifting connecting rod (18) is arranged at one side of the sliding driving component, a lifting driving component is connected on the lifting connecting rod (18), the lifting driving component is connected with the sliding driving component, a mounting sleeve III (26) is vertically and fixedly connected at the bottom of the lifting connecting rod (18), and an angle adjusting rod (27) coaxially penetrates through the mounting sleeve III (26), one end of an angle adjusting rod (27) is detachably arranged in a third mounting sleeve (26), the other end of the angle adjusting rod (27) is provided with a cutting gun clamp (22), a cutting gun (17) is clamped on the cutting gun clamp (22), a connecting pipe (14) communicated with the inside of a shell (2) is arranged on the outer wall of the shell (2), the top end of the cutting gun (17) is connected with a cable, the other end of the cable penetrates through the connecting pipe (14) and is inserted into the shell (2) to be connected with an electric appliance control cabinet, a plurality of limiting grooves in the radius direction are circumferentially arranged on one side, far away from a rotary worktable (8), of a concentric fixed chuck (9), each limiting groove is internally provided with a clamping block (23), an external workpiece (10) is clamped on the fixed chuck (9) through the clamping block (23), an inner fluted disc (32) is coaxially arranged in the concentric fixed chuck (9), and an Archimedes thread line (30) is arranged on the end wall of the inner fluted disc (32), the clamping block (23) is provided with a fluted disc meshed with the Archimedes thread (30), the inner fluted disc (32) is coaxially meshed with an outer fluted disc (33), the outer fluted disc (33) is coaxially and fixedly connected with a connecting sleeve (29), the inner fluted disc (32) and the outer fluted disc (33) are provided with through holes for the output shaft of the rotating motor (7) to pass through, one end of the connecting sleeve (29) penetrates out of the concentric fixed chuck (9) and is coaxially sleeved on the output shaft of the rotating motor (7) and fixedly connected with a chuck clamping driving rod (28), and the chuck clamping driving rod (28) is positioned between the rotating workbench (8) and the concentric fixed chuck (9).

2. The plasma groove machining tool with the flexibility in use according to claim 1, wherein the base (1) is formed by tailor welding of section steel.

3. The plasma groove machining tool with the flexibility in use according to claim 1, wherein a telescopic pipe (15) is connected between the connecting pipe (14) and the cutting gun (17), and the telescopic pipe (15) is sleeved outside the cable.

4. The plasma groove machining tool with flexible use of claim 1, wherein the tilt adjusting assembly (11) comprises a driving seat (6) installed on the chuck fixing support (4), the rotating motor (7) is installed on the side wall of the driving seat (6), a rotating shaft (111) is rotatably installed between the front end of the driving seat (6) and the inner wall of the chuck fixing support (4), an arc-shaped fluted disc (112) is coaxially installed on the rotating shaft (111), a gear (115) is engaged on the arc-shaped fluted disc (112), a transmission rod is coaxially and fixedly connected on the gear (115), the other end of the transmission rod is rotatably connected on the driving seat (6), a driven bevel gear (113) is coaxially installed on the transmission rod between the driving seat (6) and the gear (115), a driving bevel gear (114) is engaged on the driven bevel gear (113), and a rotating rod is coaxially and fixedly connected on the driving bevel gear (114), the outer end of the rotating rod is rotatably penetrated out of the chuck fixing bracket (4) and is coaxially provided with an adjusting handle (3).

5. The plasma groove machining tool flexible to use according to claim 1, wherein the sliding driving assembly comprises a second mounting sleeve (16) sleeved on the front and rear connecting rods (21), a second driving gear is rotatably mounted on the second mounting sleeve (16), a second driving wrench (31) is connected to one end of the second driving gear, the second driving wrench (31) is located on the outer side of the second mounting sleeve (16), and a second rack meshed with the second driving gear is arranged on the upper surfaces of the front and rear connecting rods (21) from front to rear.

6. The plasma groove machining tool flexible to use according to claim 5, wherein the lifting driving assembly comprises a first mounting sleeve (19) fixedly connected with a second mounting sleeve (16), the first mounting sleeve (19) is sleeved on the lifting connecting rod (18), a first driving gear is rotatably mounted on the first mounting sleeve (19), one end of the first driving gear is connected with a first driving wrench (20), the first driving wrench (20) is located on the outer side of the first mounting sleeve (19), a first rack meshed with the first driving gear is arranged on the side face of the lifting connecting rod (18) from bottom to top, a first locking bolt is mounted on the rear side of the first mounting sleeve (19) in a threaded mode, and the lifting connecting rod (18) and the first mounting sleeve (19) are fixedly locked through the first locking bolt.

7. The plasma groove machining tool with the flexibility in use according to claim 1, wherein the cutting torch (17) is a water-cooled cutting torch.