CN214920650U - Special equipment for radial drilling of wind power flange plate - Google Patents

Abstract

The utility model belongs to the technical field of machine-building. In particular to special equipment for radially drilling a wind power flange plate. The key points of the technical scheme are as follows: the rotary table is provided with a rectangular workbench (1), the workbench (1) is of a frame structure, and the upper surface of the frame structure is provided with a rotatable disc-shaped table top (20). The upper surface of the table top (20) is provided with a convex supporting and adjusting seat (19) along the periphery. The adjusting seat (19) is provided with a wind power flange (21). Because the table-board 20 for supporting the wind power flange plate (21) to rotate is arranged, the radial next hole of the wind power flange plate (21) is convenient to move and adjust before cutting, time and labor are saved, the production efficiency is high, the production cost is low, and the structure is simple.

Description

Special equipment for radial drilling of wind power flange plate

[ technical field ] A method for producing a semiconductor device

The utility model belongs to the technical field of machine-building, especially, relate to a lathe with drill bit processing hole on work piece.

[ background of the invention ]

At present, the special equipment for processing holes on machine parts comprises: upright drills, bench drills, radial drills, numerically controlled drills, and the like. The special equipment can realize the working procedures of drilling, reaming, boring, reaming and the like after being provided with the universal working table and/or the special tool. However, these devices have not been satisfactory for cutting holes in the outer annular wall of a wind-powered flange plate with a larger diameter of 6-7 m. The working table surface of the device is small, the device is not suitable for placing annular components such as wind power flange plates with larger diameters of 6-7 meters, when radial holes are machined, supporting table surfaces for auxiliary work need to be additionally arranged, and the positions of the wind power flange plates on the auxiliary working table need to be moved and adjusted again in each hole, so that the device is time-consuming, labor-consuming, low in production efficiency and high in production cost.

[ summary of the invention ]

The utility model provides a special device for drilling holes in the radial direction of a wind power flange disc, which is provided with a larger workbench and is suitable for placing annular components such as the wind power flange disc with the diameter of 6-7 meters; the production cost is low, and the production efficiency is high; the structure is simple.

The technical scheme of the utility model as follows:

the special equipment for drilling holes in the radial direction of the wind power flange plate comprises a rectangular workbench 1 and is characterized in that: the rectangular workbench 1 is of a frame structure, the upper surface of the frame structure is provided with a rotatable disc-shaped table top 20, and the upper surface of the table top 20 is provided with convex supporting and adjusting seats 19 along the periphery. Left-side bearing guide rails Z are respectively arranged on the left side and the right side of the workbench 1 from front to back in parallel₁24 and right side bearing guide rail Y ₁17, while bearing on the left side, guide rail Z ₁24 and right side bearing guide rail Y ₁17 is provided with a left side supporting leg Z of a vertical rectangular frame structure from front to back _T2 and right leg Y_T4, while at the left leg Z _T2 and right leg Y_T4 is provided with a transverse straight beam H with a rectangular frame structure between the tops _L3。

The cross beam H of the frame structure_LThe front surface of the base 3 is an isosceles trapezoid groove which is recessed backwards from left to right.

The cross beam H _L3 the left end side and the right end side of the bottom of the isosceles trapezoid groove with the front surface recessed backwards are respectively provided with a left screw rod bearing seat S _Z10 and right-hand screw bearing block S _Y11.

The left screw bearing seat S _Z10 and right-hand screw bearing block S_YA screw shaft Zs7 whose axis is transverse from left to right is provided in the screw shaft 11.

The isosceles trapezoid groove is provided with convex bearing upper guide rails G in parallel from the left to the right upper and lower edges_S8 and a lower bearing guide G _X9。

The left side supporting leg Z_T2 is provided with a motor M at the upper end₁6, motor M₁6 right shaft end and screw shaft Z of output shaft_SThe left shaft end of the shaft 7 is connected by a coupling.

At the same time on the cross beam H_L2 a substrate J with a rectangular structure is vertically arranged from left to right at the middle position of the front surface of the substrate J _B12。

The substrate J _B12 is provided with a projected lead screw nut 1203 at a central position of a rear surface thereof and is engaged with a lead screw shaft Z_S7, assembling.

The substrate J_BProjecting upper sliders K are provided in parallel on the rear surface of the spindle nut 1203 at upper and lower positions thereof, respectively_S1202 and a lower slider K _X1204 and upper guide G_S8 and lower guide G _X9 assembling.

The substrate J _B12 is provided with a guide rail G in the shape of a convex dovetail vertically from top to bottom at a central position of a front surface _Y1201 while on the substrate J_BA rectangular oil cylinder lower base U horizontally placed forwards is arranged at the lower right corner of the front surface of the base 12₁1205, simultaneously under the oil cylinder base U₁A plunger cylinder G of a cylindrical shape is vertically arranged at an upper position of 1205₁15。

Simultaneously on the substrate J_BA power head 13 of a rectangular shape is vertically provided at a front position of the housing 12.

Dovetail-shaped upper sliding blocks K are vertically arranged at the upper and lower positions of the middle part of the rear surface of the power head 13 respectively_B1301 and the lower slider K_G1302 and is in contact with the substrate J _B12 dovetail-shaped guide rail G provided on front surface _Y1201 are assembled.

An upper base U of a convex plunger head of a coupling oil cylinder is arranged at the right side position of the upper end of the power head 13₂1303 and a plunger cylinder G ₁15 is connected with the plunger head at the upper end.

The top end of the power head 13 is provided with a motor M ₂14, a power arm 1304 in the shape of a circular tube extending downwards is arranged at the lower end of the power head 13, a transmission head 16 in the shape of a cylinder horizontally arranged from front to back is arranged at the end head of the lower part of the power arm 1304, the axis of the transmission head is perpendicular to the axis of the power arm 1304, and a cutter for cutting and drilling is arranged in front of the transmission head 16.

The motor M₂The transmission head 16 is connected with the transmission shaft with a bevel gear structure.

Guide rail Z of left side bearing₁24 and right side bearing guide rail Y ₁17 are respectively provided with a plunger oil cylinder G at the rear part ₂402 rear base U ₃401。

Left side supporting leg Z of rectangular frame structure _T2 and right leg Y_T4 are respectively provided with a convex connecting plunger oil cylinder G at the bottom position below the frame ₂402 front base U ₄403。

Rear base U of plunger oil cylinder ₃401 and front base U of plunger oil cylinder ₄403 are all provided with plunger oil cylinders G ₂402。

Left side supporting leg Z of rectangular frame structure _T2 and right leg Y_T4 is provided with a left slide rail Z at the bottom _H25 and right slide rail Y _H18。

The left side slide rail Z_H25 and right slide rail Y _H18 guide rails Z respectively bearing the left side ₁24 and right side bearing guide rail Y ₁17, assembling.

Left side leg Z _T2 and right leg Y_T4, an inserting and folding type left front side protective cover Q is respectively arranged at the lower position of the front surface ₁27 and right front side shield Q ₂30。

Left side leg Z _T2 and right leg Y_T4 are respectively provided at the lower positions behind the two partsInsert-folding type left rear side protective cover Q ₃28 and right rear side shield Q ₄29。

A safety fence 23 is provided around the upper surface of the rectangular work table 1.

A motor M is arranged at the position below the middle part in the frame structure of the workbench 1₃22 and is coupled to the lower bottom of the table 20 at an upper position.

When the utility model is used, a crane truss vehicle is used to parallelly place wind power flange plates 21 with the diameter of 6-7 meters on the supporting adjusting seats 19 which are uniformly distributed on the upper surface of the rotatable disc-shaped table top 20 of the rectangular workbench 1; starting the motor 6 to rotate forward or backward to make the substrate J _B12 to move to the left or right, the substrate J is moved_B12 on the beam H _L3, a neutral position; then controlling the plunger cylinder G ₁15, the plunger of the power head 13 moves upwards or downwards, and simultaneously the power head 13 moves along with the plunger, so that a drilling tool arranged in front of a transmission head 16 at the lower end head of the power arm 1304 is aligned to the center of a position to be drilled on the wind power flange 21; starting motor M ₂14, rotating the drilling tool, its motor M ₂14 can be a common type or a speed regulating type; then controlling the plunger cylinder G ₂402 its plunger moves forward while the left leg Z _T2 and right leg Y_TAnd 4, moving forwards along with the wind power flange 21, so that the wind power flange 21 is drilled radially by the drilling tool.

Then controlling the plunger cylinder G ₂402 its plunger moves backwards while the left leg Z_T2 and right leg Y_T4, moving backwards along with the movement, and realizing the radial tool retracting of the drilling tool to the wind power flange 21.

Subsequent start-up of the control motor M ₃22, rotating the table top 20 arranged at the position above the worktable 1 to ensure that the central line of the position needing drilling on the wind power flange 21 arranged on the table top 20 is consistent with the central line of the drilling tool; then, cutting the next radial hole of the wind power flange plate 21; until all radial holes are machined.

The utility model discloses do not have the supplementary table surface who supports wind-powered electricity generation ring flange 21, be provided with the rotatory mesa 20 of support wind-powered electricity generation ring flange 21, it is more convenient to make it carry out the removal adjustment before the cutting process to the next hole that wind-powered electricity generation ring flange 21 is radial, saves time, saves labour, and production efficiency is also higher, and manufacturing cost is also lower.

The utility model has the advantages as follows: by using the technical scheme, the working table top for placing the annular components such as the wind power flange plate with the diameter of 6-7 meters and the like can be realized, and the technical effects of lower production cost and higher production efficiency are achieved. The utility model has simple structure.

[ description of the drawings ]

Fig. 1 is a front view of a first embodiment of the present invention.

Fig. 2 is a plan view of the first embodiment of the present invention.

Fig. 3 is a left side view of the first embodiment of the present invention.

[ detailed description ] embodiments

The present invention will be further explained with reference to the accompanying drawings.

Example 1

In a first embodiment shown in fig. 1, fig. 2 and fig. 3, a special device for drilling holes in a wind power flange plate in a radial direction comprises a rectangular workbench 1, and is characterized in that: the rectangular workbench 1 is of a frame structure, the upper surface of the frame structure is provided with a rotatable disc-shaped table top 20, and the upper surface of the table top 20 is provided with convex supporting and adjusting seats 19 along the periphery. Meanwhile, guide rails Z for bearing the left side are respectively arranged on the left side and the right side of the workbench 1 from front to back in parallel₁24 and right side bearing guide rail Y ₁17, while bearing on the left side, guide rail Z ₁24 and right side bearing guide rail Y ₁17 is provided with a left side supporting leg Z of a vertical rectangular frame structure from front to back _T2 and right leg Y_T4, while at the left leg Z _T2 and right leg Y_T4 is provided with a transverse straight beam H with a rectangular frame structure between the tops _L3。

The cross beam H of the frame structure_LThe front surface of the base 3 is an isosceles trapezoid groove which is recessed backwards from left to right.

The cross beam H _L3 the left end side and the right end side of the bottom of the isosceles trapezoid groove with the front surface recessed backwards are respectively provided with a left screw rod bearing seat S _Z10 and right-hand screw bearing block S _Y11。

The left screw bearing seat S _Z10 and right-hand screw bearing block S_YA screw shaft Zs7 whose axis is transverse from left to right is provided in the screw shaft 11.

The isosceles trapezoid groove is provided with convex bearing upper guide rails G in parallel from the left to the right upper and lower edges_S8 and a lower bearing guide G _X9。

The left side supporting leg Z_T2 is provided with a motor M at the upper end₁6, motor M₁6 right shaft end and screw shaft Z of output shaft_SThe left shaft end of the shaft 7 is connected by a coupling.

At the same time on the cross beam H_L3 a substrate J with a rectangular structure is vertically arranged from left to right at the middle position of the front surface of the substrate J _B12。

The substrate J _B12 is provided with a projected lead screw nut 1203 at a central position of a rear surface thereof and is engaged with a lead screw shaft Z_S7, assembling.

The substrate J_BProjecting upper sliders K are provided in parallel on the rear surface of the spindle nut 1203 at upper and lower positions thereof, respectively_S1202 and a lower slider K _X1204 and upper guide G_S8 and lower guide G _X9 assembling.

The substrate J _B12 is provided with a guide rail G in the shape of a convex dovetail vertically from top to bottom at a central position of a front surface _Y1201 while on the substrate J_BA rectangular oil cylinder lower base U horizontally placed forwards is arranged at the lower right corner of the front surface of the base 12₁1205, simultaneously under the oil cylinder base U₁A plunger cylinder G of a cylindrical shape is vertically arranged at an upper position of 1205₁15。

Simultaneously on the substrate J_BA power head 13 of a rectangular shape is vertically provided at a front position of the housing 12.

13 back gauge of power headDovetail-shaped upper sliding blocks K are respectively and vertically arranged at the upper and lower positions of the middle part of the face _B1301 and the lower slider K_G1302 and is in contact with the substrate J _B12 dovetail-shaped guide rail G provided on front surface _Y1201 are assembled.

An upper base U of a convex plunger head of a coupling oil cylinder is arranged at the right side position of the upper end of the power head 13₂1303 and a plunger cylinder G ₁15 is connected with the plunger head at the upper end.

The top end of the power head 13 is provided with a motor M ₂14, a power arm 1304 in the shape of a circular tube extending downwards is arranged at the lower end of the power head 13, a transmission head 16 in the shape of a cylinder horizontally arranged from front to back is arranged at the end head of the lower part of the power arm 1304, the axis of the transmission head is perpendicular to the axis of the power arm 1304, and a cutter for cutting and drilling is arranged in front of the transmission head 16.

The motor M₂The transmission head 16 is connected with the transmission shaft with a bevel gear structure.

Guide rail Z of left side bearing₁24 and right side bearing guide rail Y ₁17 are respectively provided with a plunger oil cylinder G at the rear part ₂402 rear base U ₃401。

Left side supporting leg Z of rectangular frame structure _T2 and right leg Y_T4 are respectively provided with a convex connecting plunger oil cylinder G at the bottom position below the frame ₂402 front base U ₄403。

Rear base U of plunger oil cylinder ₃401 and front base U of plunger oil cylinder ₄403 are all provided with plunger oil cylinders G ₂402。

Left side supporting leg Z of rectangular frame structure _T2 and right leg Y_T4 is provided with a left slide rail Z at the bottom_H25 and right slide rail Y _H18。

The left side slide rail Z _H25 and right slide rail Y _H18 guide rails Z respectively bearing the left side ₁24 and right side bearing guide rail Y ₁17, assembling.

Left side leg Z _T2 and right leg Y_T4 front faceIs respectively provided with an insert-folding type left front side protective cover Q ₁27 and right front side shield Q ₂30。

Left side leg Z _T2 and right leg Y_T4, the lower positions behind the left and right rear side protective covers Q are respectively provided with an insert-fold type left and right rear side protective cover Q ₃28 and right rear side shield Q ₄29。

A safety fence 23 is provided around the upper surface of the rectangular work table 1.

A motor M is arranged at the position below the middle part in the frame structure of the workbench 1₃22 and is coupled to the lower bottom of the table 20 at an upper position.

The left side supporting leg Z_TAn operation console 5 is provided at a left rear position of the housing 2. Operating console 5 and left leg Z _T2 are linked together to follow. Cross beam H_LA hydraulic oil tank 26 is arranged at the left end position of the top of the 3; cross beam H_LAnd a water tank for containing cutting cooling liquid is arranged at the right end of the top of the cutting machine 3. A box body for recovering cutting cooling liquid is arranged at the rear lower position of the workbench 1.

When the utility model is used, a crane truss vehicle is used to parallelly place wind power flange plates 21 with the diameter of 6-7 meters on the supporting adjusting seats 19 which are uniformly distributed on the upper surface of the rotatable disc-shaped table top 20 of the rectangular workbench 1; starting the motor 6 to rotate forward or backward to make the substrate J _B12 to move to the left or right, the substrate J is moved_B12 on the beam H _L3, a neutral position; then controlling the plunger cylinder G ₁15, the plunger of the power head 13 moves upwards or downwards, and simultaneously the power head 13 moves along with the plunger, so that a drilling tool arranged in front of a transmission head 16 at the lower end head of the power arm 1304 is aligned to the center of a position to be drilled on the wind power flange 21; starting motor M ₂14, rotating the drilling tool, its motor M ₂14 can be a common type or a speed regulating type; then controlling the plunger cylinder G ₂402 its plunger moves forward while the left leg Z _T2 and right leg Y_TAnd 4, moving forwards along with the wind power flange 21, so that the wind power flange 21 is drilled radially by the drilling tool.

Then controlling the plunger cylinder G ₂402 its plunger moves backwards while the left leg Z _T2 and right leg Y_T4, moving backwards along with the movement, and realizing the radial tool retracting of the drilling tool to the wind power flange 21.

Subsequent start-up of the control motor M ₃22, rotating the table top 20 arranged at the position above the worktable 1 to ensure that the central line of the position needing drilling on the wind power flange 21 arranged on the table top 20 is consistent with the central line of the drilling tool; then, cutting the next radial hole of the wind power flange plate 21; until all radial holes are machined.

The utility model discloses be provided with the rotatory mesa 20 of support wind-powered electricity generation ring flange 21, it is more convenient to make it carry out the removal adjustment before the cutting process to wind-powered electricity generation ring flange 21 radial next hole, saves time, saves labour, and production efficiency is also higher, and manufacturing cost is also lower, simple structure.

Claims (5)

1. The utility model provides a professional equipment at wind-powered electricity generation flange dish radial drilling, including workstation (1) of rectangle shape, its characterized in that: the workbench (1) is of a frame structure, the upper surface of the frame structure is provided with a rotatable disc-shaped table top (20), and the upper surface of the table top (20) is provided with convex supporting and adjusting seats (19) along the periphery;

the left and right sides of the workbench (1) are respectively provided with a guide rail Z for bearing the left side in parallel from front to back₁(24) And a right-side bearing guide rail Y₁(17) While at the same time bearing the guide rail Z on the left₁(24) And a right-side bearing guide rail Y₁(17) The left side supporting leg Z of the vertical rectangular frame structure is arranged from front to back_T(2) And a right side supporting leg Y_T(4) While at the left leg Z_T(2) And a right side supporting leg Y_T(4) Between the tops of the beams are arranged transverse and straight beams H of rectangular frame structure_L(3)；

The cross beam H of the frame structure_L(3) The front surface of the front plate is an isosceles trapezoid groove which is recessed backwards from left to right;

the cross beam H_L(3) Left end side of isosceles trapezoid groove bottom with backward concave front surfaceAnd a left screw bearing seat S is respectively arranged on one side of the right end_Z(10) And a right screw bearing seat S_Y(11)；

The left screw bearing seat S_Z(10) And a right screw bearing seat S_Y(11) A screw shaft Zs (7) with the axis transversely arranged from left to right is arranged in the screw shaft;

the isosceles trapezoid groove is provided with convex bearing upper guide rails G in parallel from the left to the right upper and lower edges_S(8) And a lower guide G for bearing_X(9)；

The left side supporting leg Z_T(2) Is provided with a motor M at the upper end₁(6) Motor M₁(6) Right shaft end and screw shaft Z of output shaft_S(7) The left shaft ends are connected by a coupler;

at the same time on the cross beam H_L(3) A substrate J with a rectangular structure is vertically arranged from left to right at the middle position of the front surface_B(12)；

The substrate J_B(12) A convex screw nut sleeve (1203) is arranged at the middle position of the rear surface and is connected with a screw shaft Z_S(7) Assembling;

the substrate J_B(12) Are respectively provided with a convex upper slide block K in parallel at the upper and lower positions of a screw nut sleeve (1203) on the rear surface_S(1202) And a lower slider K_X(1204) And is connected with the upper guide rail G_S(8) And a lower guide G_X(9) Assembling;

the substrate J_B(12) Is vertically provided with a guide rail G in a shape of a convex dovetail from top to bottom at the middle position of the front surface_Y(1201) Simultaneously on the substrate J_B(12) The lower right corner of the front surface is provided with a rectangular oil cylinder lower base U horizontally placed forwards₁(1205) At the same time, the lower base U of the oil cylinder₁(1205) Is vertically provided with a cylindrical plunger cylinder G₁(15)；

Simultaneously on the substrate J_B(12) A power head (13) with a rectangular shape is vertically arranged at the front position of the power head;

dovetail-shaped upper sliding blocks are vertically arranged at the upper and lower positions of the middle part of the rear surface of the power head (13) respectivelyK_B(1301) And a lower slider K_G(1302) And is bonded to the substrate J_B(12) Dovetail-shaped guide rail G provided on front surface_Y(1201) Assembling;

an upper base U of a convex plunger head of a coupling oil cylinder is arranged at the right side position of the upper end of the power head (13)₂(1303) And a plunger cylinder G₁(15) The plunger head at the upper end is connected;

the top end of the power head (13) is provided with a motor M₂(14) The lower end of the power head (13) is provided with a power arm (1304) which is in a circular tube shape and extends downwards, the lower end head of the power arm (1304) is provided with a transmission head (16) which is in a cylindrical shape, the axis of the transmission head is vertical to the axis of the power arm (1304), the transmission head is horizontally arranged from front to back, and a cutter for cutting and drilling is arranged in front of the transmission head (16);

the motor M₂(14) And the transmission head (16) is connected with a transmission shaft with a bevel gear structure.

2. The special equipment for radially drilling the wind power flange plate is characterized in that: guide rail Z of left side bearing₁(24) And a right-side bearing guide rail Y₁(17) The rear positions of the two are respectively provided with a plunger oil cylinder G for arranging₂(402) Rear base U₃(401)；

Left side supporting leg Z of rectangular frame structure_T(2) And a right side supporting leg Y_T(4) The lower bottom position in the frame is respectively provided with a convex connecting plunger oil cylinder G₂(402) Front base U₄(403)；

Rear base U of plunger oil cylinder₃(401) Front base U of plunger oil cylinder₄(403) Between all are provided with plunger oil cylinders G₂(402)；

Left side supporting leg Z of rectangular frame structure_T(2) And a right side supporting leg Y_T(4) Are respectively provided with a left slide rail Z_H(25) And a right slide rail Y_H(18)；

The left side slide rail Z_H(25) And a right slide rail Y_H(18) Guide rails Z respectively bearing with the left side₁(24) And right side bearingGuide rail Y₁(17) And (6) assembling.

3. The special equipment for radially drilling the wind power flange plate is characterized in that: left side leg Z_T(2) And a right side supporting leg Y_T(4) The lower positions of the front surfaces are respectively provided with an inserted and folded left front side protective cover Q₁(27) And a right front side shield Q₂(30)；

Left side leg Z_T(2) And a right side supporting leg Y_T(4) The lower positions of the back surfaces are respectively provided with an inserted and folded left rear side protective cover Q₃(28) And a right rear side shield Q₄(29)。

4. The special equipment for radially drilling the wind power flange plate is characterized in that: and a safety guardrail (23) is arranged on the periphery of the upper surface of the rectangular workbench (1).

5. The special equipment for radially drilling the wind power flange plate is characterized in that: a motor M is arranged at the position below the middle part in the frame structure of the workbench (1)₃(22) And is connected with the lower bottom of the table top (20) at the upper position.

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