CN210549465U - Center shaft machining equipment for solar slewing bearing - Google Patents

Abstract

The utility model relates to a middle shaft processing device for a solar slewing bearing, which comprises a milling machine, a boring machine and a clamping device; the milling machine and the boring machine are respectively arranged on two sides of the clamping device; the clamping device comprises a base, a mounting plate, a first driver and a positioning mechanism, wherein the mounting plate and the first driver are arranged on the base, the mounting plate is connected with the base in a sliding manner, the first driver is arranged on one side of the mounting plate and connected with the mounting plate, and the positioning mechanism is arranged on the mounting plate and used for clamping the middle shaft; the base is provided with chip grooves on two sides of the mounting plate. The utility model discloses having and to mill multiple processes such as terminal surface, bore hole, chamfer to the axis, shortening process time greatly, improving production efficiency, saving the cost, can guarantee that work area's environment is clean and tidy simultaneously, save staff's the time of cleaning.

Description

Center shaft machining equipment for solar slewing bearing

Technical Field

The utility model belongs to the technical field of machining equipment, concretely relates to axis processing equipment for solar energy slewing bearing.

Background

The central shaft is an important part arranged on the solar slewing bearing. At present, the middle shaft is subjected to end face milling, boring, chamfering and other processes in production, the processes are processed through corresponding equipment, and only a single processing process can be performed by single equipment, for example, the middle shaft is detached from the end face milling equipment and then is installed on boring equipment. Therefore, the processing time is long, the efficiency is low, and the production cost is increased. In addition, the debris generated during processing is scattered on the ground, which affects not only the actions of the operator but also the working environment.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that to above-mentioned defect, provide a axis processing equipment for solar energy slewing bearing, can once only mill multiple processes such as terminal surface, bore hole, chamfer to the axis, shorten process time greatly, improve production efficiency, save the cost, can guarantee that work area's environment is clean and tidy simultaneously, save staff's the time of cleaning.

The utility model provides a technical scheme that its technical problem adopted as follows:

a middle shaft processing device for a solar slewing bearing comprises a milling machine, a boring machine and a clamping device; the milling machine and the boring machine are respectively arranged on two sides of the clamping device; the clamping device comprises a base, a mounting plate, a first driver and a positioning mechanism, wherein the mounting plate and the first driver are arranged on the base, the mounting plate is connected with the base in a sliding manner, the first driver is arranged on one side of the mounting plate and connected with the mounting plate, and the positioning mechanism is arranged on the mounting plate and used for clamping the middle shaft; the chip groove is arranged on the base and is located on two sides of the mounting plate, the chip groove is axially arranged along the base and penetrates through two opposite ends of the base, a rotating shaft and a spiral piece which is arranged on the rotating shaft in a sleeved mode are arranged in the chip groove, a motor connected with the rotating shaft is arranged at one end of the base, a chip collecting box is arranged at the other end of the base, and one end of the spiral piece is located outside the chip groove and above the chip collecting box.

Further, the length of the rotating shaft is smaller than the axial length of the spiral piece.

Furthermore, the base is provided with a baffle plate covering the chip grooves, and a plurality of chip removing holes are uniformly distributed in the baffle plate.

Furthermore, the positioning mechanism comprises an air cylinder, a first positioning plate, a second driver and a side plate, wherein the first positioning plate and the second positioning plate are symmetrically arranged and are used for clamping the middle shaft; the first positioning plate is fixed on the mounting plate, the second positioning plate is connected with the mounting plate in a sliding mode, and the second driver is arranged on the base and connected with the second positioning plate; the side plate is arranged on one side of the first positioning plate, and a groove for supporting the middle shaft is formed in the upper end face of the side plate; the cylinder sets up in the opposite side of first locating plate, and is connected with the locating piece on the piston rod of cylinder.

Furthermore, all be equipped with the centre gripping mouth on the face that first locating plate and second locating plate are relative, the upper and lower both ends of this centre gripping mouth all are equipped with the grip block.

Further, the clamping opening sequentially comprises an upper inclined plane, a vertical plane and a lower inclined plane, the upper inclined plane and the lower inclined plane are symmetrically arranged, and the clamping blocks are respectively arranged on the upper inclined plane and the lower inclined plane.

The utility model has the advantages that:

(1) the utility model fixes the middle shaft on the clamping device, then carries out the end face milling process on the middle shaft through the milling machine, and carries out the boring and chamfering process on the middle shaft through the boring machine, thus various processes are integrated on one device, the processes of middle disassembly and installation are saved, the time is greatly saved, and the production efficiency and the product quality are improved; the piece that the axis produced during processing can directly fall into the chip groove, drives the flight synchronous rotation through the motor drive pivot, directly discharges the piece of chip groove to album bits case, comes centralized processing through album bits case, prevents that the piece from dropping subaerially, has guaranteed the clean and tidy of the interior environment of work area, saves staff's the time of cleaning.

(2) The utility model discloses the length of well pivot is less than the axial length of flight, and the chip removal is quick, and is efficient.

(3) The utility model discloses a baffle can block the great piece of volume to prevent the card in the chip groove, the great piece of volume can fall through artifical convenient clearance fast.

(4) The utility model discloses place centraxonial one end in the recess of curb plate to first locating plate laminating lives centraxonial surface, then promotes the locating piece through the cylinder, makes the locating piece compress tightly epaxial, presss from both sides the fastening through locating piece and curb plate with the well axial part like this and decides, then removes towards the axis by second driver drive second locating plate, until pressing from both sides tight axis, carries the axis through first locating plate and second locating plate like this, realizes centraxonial fixed, easy dismounting.

(5) The utility model discloses a centre gripping mouth can the whole axis of holding, and the rethread grip block can press from both sides tight axis with firmly, and the centre gripping is firm, guarantees the machining precision.

(6) The utility model discloses a centre gripping mouth includes inclined plane, vertical face and down inclined plane in proper order, can wrap up centraxonial whole periphery like this to guarantee the steadiness of axis centre gripping.

Drawings

The foregoing and other objects, features, and advantages of the invention will be apparent from the following detailed description taken in conjunction with the accompanying drawings.

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the middle positioning mechanism of the present invention;

fig. 3 is a schematic view of the installation positions of the first positioning plate, the second driver and the side plate of the present invention;

fig. 4 is a schematic structural diagram of a chip groove in the present invention;

FIG. 5 is a schematic structural view of a baffle plate of the present invention;

wherein: the milling machine comprises a milling machine 1, a boring machine 2, a clamping device 3, a base 31, a mounting plate 32, a first driver 33, a positioning mechanism 34, a cylinder 341, a first positioning plate 342, a second positioning plate 343, a second driver 345, a side plate 346, a groove 3461, a clamping opening 4, an upper inclined surface 41, a vertical surface 42, a lower inclined surface 43, a clamping block 5, a chip discharge groove 6, a baffle 7, a chip discharge hole 71, a rotating shaft 8, a spiral sheet 9, a motor 10 and a chip collecting box 11.

Detailed Description

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

The central shaft processing equipment for the solar slewing bearing as shown in fig. 1 to 5 comprises a milling machine 1, a boring machine 2 and a clamping device 3; the milling machine 1 and the boring machine 2 are respectively arranged on two sides of the clamping device 3. In this embodiment, the milling machine 1 and the boring machine 2 are arranged in a staggered manner to ensure the safety of processing, for example, after the milling machine 1 finishes processing, the milling machine is moved to the boring machine 2 for processing.

The clamping device 3 includes a base 31, a mounting plate 32, a first driver 33 and a positioning mechanism 34, the mounting plate 32 and the first driver 33 are both disposed on the base 31, and the mounting plate 32 is slidably connected to the base 31, the first driver 33 is disposed on one side of the mounting plate 32 and connected to the mounting plate 32, the mounting plate 32 is driven by the first driver 33 to slide on the base 31, so as to adjust the position of the positioning mechanism 34, for example, the mounting plate 32 is driven by the first driver 33 to slide on the base 31, and the positioning mechanism 34 is adjusted to the milling machine 1 for milling end faces. The first actuator 33 in this embodiment is preferably a hydraulic cylinder.

A positioning mechanism 34 is disposed on the mounting plate 32 and is used to clamp the bottom bracket. Specifically, the positioning mechanism 34 includes a cylinder 341, a first positioning plate 342, a second positioning plate 343, a second driver 345, and a side plate 346, the first positioning plate 342 and the second positioning plate 343 are symmetrically disposed, and the first positioning plate 342 and the second positioning plate 343 are symmetrically disposed for clamping the middle axle.

It should be noted that the first positioning plate 342 is fixed on the mounting plate 32, the second positioning plates 343 are slidably connected with the mounting plate 32, the second driver 345 is disposed on the base 31 and connected to the two second positioning plates 343, and the two second positioning plates 343 can be driven to move synchronously by the second driver 345, so that the middle shaft can be fixed by matching with the first positioning plate 342; the surfaces of the first positioning plate 342 opposite to the second positioning plate 343 are provided with clamping openings 4, the upper end and the lower end of each clamping opening 4 are provided with clamping blocks 5, the circumferential surface of the center shaft can be coated through the clamping openings 4, and the center shaft can be clamped better through the clamping blocks 5, so that fixation is realized. It should be noted that the clamping opening 4 sequentially comprises an upper inclined surface 41, a vertical surface 42 and a lower inclined surface 43, the upper inclined surface 41 and the lower inclined surface 43 are symmetrically arranged, and the clamping blocks 5 are respectively arranged on the upper inclined surface 41 and the lower inclined surface 42, are attached to the circumferential surface of the middle shaft, and are clamped stably. The side plate 346 is arranged at one side of the first positioning plate 342, and the upper end surface of the side plate 346 is provided with a groove 3461 for supporting the middle shaft; the cylinder 341 is disposed on the other side of the first positioning plate 342, and the positioning block 347 is connected to a piston rod of the cylinder 341, and it is noted that the side plate 346 and the cylinder 341 are located at the clamping opening 4. Before the second positioning plate 343 clamps the middle shaft, one end of the middle shaft is placed in the groove 3461 of the side plate 346, and the cylinder 341 is started to enable the positioning block 347 to press the middle shaft against the end face of the side plate 346, that is, the axial positioning of the middle shaft is realized, the surface of the middle shaft is attached to the clamping opening 4 of the first positioning plate 342, and then the second positioning plate 343 is enabled to move towards the middle shaft through the second driver 345 and is clamped, so that the radial positioning is realized, the structural design is reasonable, and the clamping stability is good. The second actuator 345 in this embodiment is preferably a hydraulic cylinder.

The chip removal grooves 6 on two sides of the mounting plate 32 are formed in the base 31, the baffle 7 covering the chip removal grooves 6 is arranged on the base 31, the baffle 7 is fixedly connected with the base 31 through screws, and a plurality of chip removal holes 71 are uniformly distributed in the baffle 7. The chip groove 6 is arranged along the axial direction of the base 31 and penetrates through two opposite ends of the base 31, a rotating shaft 8 and a spiral sheet 9 sleeved on the rotating shaft 8 are arranged in the chip groove 6, and the length of the rotating shaft 8 is smaller than the axial length of the spiral sheet. One end of the base 31 is provided with a motor 10 connected with the rotating shaft 8, the other end is provided with a chip collecting box 11, and one end of the spiral piece 9 is positioned outside the chip groove 6 and above the chip collecting box 11. Add man-hour produced piece and can fall into chip groove 6 in to avoid the piece to pile up and scatter at equipment periphery, pollute work area's environment, rethread motor 10 drive pivot drives the flight 9 and rotates, can clear up the piece in the chip groove 6 to album bits case 11 in, can concentrate like this and clear up the piece, save staff's the time of cleaning, guarantee work area's clean and tidy environment.

The above is only the preferred embodiment of the present invention, not to the limitation of the present invention in any form, all the techniques of the present invention are substantially any simple modification and equivalent changes to the above embodiments, all falling within the protection scope of the present invention.

Claims (6)

1. A centre shaft processing equipment for solar slewing bearing, its characterized in that: comprises a milling machine, a boring machine and a clamping device; the milling machine and the boring machine are respectively arranged on two sides of the clamping device;

the clamping device comprises a base, a mounting plate, a first driver and a positioning mechanism, wherein the mounting plate and the first driver are arranged on the base, the mounting plate is connected with the base in a sliding manner, the first driver is arranged on one side of the mounting plate and connected with the mounting plate, and the positioning mechanism is arranged on the mounting plate and used for clamping the middle shaft;

the chip groove is arranged on the base and is located on two sides of the mounting plate, the chip groove is axially arranged along the base and penetrates through two opposite ends of the base, a rotating shaft and a spiral piece which is arranged on the rotating shaft in a sleeved mode are arranged in the chip groove, a motor connected with the rotating shaft is arranged at one end of the base, a chip collecting box is arranged at the other end of the base, and one end of the spiral piece is located outside the chip groove and above the chip collecting box.

2. The central shaft machining equipment for the solar slewing bearing according to claim 1, characterized in that: the length of the rotating shaft is smaller than the axial length of the spiral sheet.

3. The central shaft machining equipment for the solar slewing bearing according to claim 1, characterized in that: the base is provided with a baffle plate covering the chip grooves, and a plurality of chip removing holes are uniformly distributed in the baffle plate.

4. The central shaft machining equipment for the solar slewing bearing according to claim 1, characterized in that: the positioning mechanism comprises an air cylinder, a first positioning plate, a second driver and a side plate, wherein the first positioning plate and the second positioning plate are symmetrically arranged and are used for clamping the middle shaft;

the first positioning plate is fixed on the mounting plate, the second positioning plate is connected with the mounting plate in a sliding mode, and the second driver is arranged on the base and connected with the second positioning plate;

the side plate is arranged on one side of the first positioning plate, and a groove for supporting the middle shaft is formed in the upper end face of the side plate;

the cylinder sets up in the opposite side of first locating plate, and is connected with the locating piece on the piston rod of cylinder.

5. The central shaft machining equipment for the solar slewing bearing according to claim 4, wherein: the opposite surfaces of the first positioning plate and the second positioning plate are provided with clamping openings, and the upper end and the lower end of each clamping opening are provided with clamping blocks.

6. The central shaft machining equipment for the solar slewing bearing according to claim 5, wherein: the clamping opening sequentially comprises an upper inclined plane, a vertical plane and a lower inclined plane, the upper inclined plane and the lower inclined plane are symmetrically arranged, and the clamping blocks are respectively arranged on the upper inclined plane and the lower inclined plane.

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