CN220959889U - Cross flow wind wheel runout test frame and discharging device - Google Patents

Abstract

The utility model relates to the technical field of through-flow wind wheel detection, in particular to a through-flow wind wheel runout test frame and a blanking device.

Description

Cross flow wind wheel runout test frame and discharging device

Technical Field

The utility model relates to the technical field of cross flow wind wheel detection, in particular to a cross flow wind wheel runout test frame and a blanking device.

Background

For the cross flow wind wheel after the thermal fusion welding treatment, the jumping amount of each section of outer circle of the cross flow wind wheel needs to be detected by using a dial indicator manually, and the jumping amount of the outer circle of the steel shaft needs to be detected. However, the production noise of the blanking station after the thermal fusion welding treatment of the current through-flow wind wheel is high, the risk is high, when workers approach the blanking station to take workpieces for jumping detection, the safety of the workers is easily endangered, the safety is reduced, the occupation of the production space is increased by arranging a long-distance workpiece transfer mechanism, the blanking time is increased, and the testing efficiency is reduced.

Disclosure of utility model

In order to overcome the defects of the prior art, the utility model aims to provide the tubular wind wheel runout testing frame and the blanking device which are convenient for tubular wind wheel blanking and detection, improve the detection efficiency, have high safety and occupy less production space.

The technical scheme adopted by the utility model is as follows:

The utility model provides a cross flow wind wheel test stand that beats, including the support body, the middle part of support body is equipped with the stock bearing, the front end of stock bearing stretches out and is connected with the hang plate behind the support body, and the rear end stretches out and is connected with the limiting plate behind the support body, the top rear side of support body is equipped with the magnetism testboard, be equipped with first mount pad on the magnetism testboard, one side of first mount pad is equipped with the second mount pad, one side that the second mount pad is close to first mount pad is equipped with the installation axle, the top of first mount pad is equipped with the axial slot, be equipped with on the magnetism testboard with its magnetism seat through magnetic connection, the top of magnetism seat is connected with first universal support, install wind wheel radial runout measuring apparatu on the first universal support.

Preferably, the magnetic test bench is provided with a guide rail, the guide rail is connected with a sliding block in a sliding manner, the first mounting seat is fixedly connected to one side of the sliding block, which is close to the second mounting seat, and the second mounting seat is fixed on the magnetic test bench.

Preferably, the top of the sliding block is connected with a second universal bracket, and a rotating shaft radial runout measuring instrument is arranged on the second universal bracket.

Preferably, the rotating shaft radial runout measuring instrument and the wind wheel radial runout measuring instrument are dial indicators.

Preferably, two rollers are symmetrically connected to two sides of the axis of the shaft groove, and the two rollers are both rotationally connected to the first mounting seat.

Preferably, the middle part of the material bearing plate is provided with a hollow groove.

Preferably, a knocking plate is connected to the front side of the frame.

The utility model also provides a blanking device which comprises any through-flow wind wheel jumping test frame, a material supporting plate and a lifting mechanism for driving the material supporting plate to lift, wherein the material supporting plate is provided with two positioning grooves which are respectively arranged on two sides of the material supporting plate, and the upper sides of the two material supporting plates are respectively provided with a positioning groove which is arranged corresponding to the inclined plate.

Preferably, a clamping jaw is arranged above the material supporting plate, and one side of the clamping jaw is connected with a translation mechanism for driving the clamping jaw to horizontally move.

Preferably, a laser marking machine is arranged on one side of the clamping jaw away from the translation mechanism.

The utility model has the beneficial effects that:

According to the through-flow wind wheel runout testing frame, the workpiece is placed on the inclined plate, the workpiece slides along the inclined plate and slides onto the material bearing plate according to gravity, the workpiece is blocked by the limiting plate, the workpiece is prevented from sliding out of the material bearing plate, the unloading of the through-flow wind wheel is facilitated, a worker can take the workpiece from the rear end of the material bearing plate, the workpiece is installed between the shaft groove and the installation shaft, then the runout amount of each section of outer circle of the through-flow wind wheel is detected through the wind wheel radial runout measuring instrument, the testing position of the wind wheel radial runout measuring instrument is conveniently changed through the magnetic seat, the testing position and the angle are further adjusted through the first universal bracket, the applicability is improved, the detection of the through-flow wind wheel is facilitated, the detection efficiency is improved, the safety is high, and the occupied production space is small.

Drawings

Fig. 1 is a schematic perspective view of a cross flow wind wheel runout test stand.

Fig. 2 is a schematic diagram of a part of the structure of a cross-flow wind wheel runout test frame.

Fig. 3 is an enlarged schematic view at a in fig. 2.

Fig. 4 is a first schematic structural view of the blanking device.

Fig. 5 is a second schematic structural view of the blanking device.

Fig. 6 is a third structural schematic diagram of the blanking apparatus.

In the figure: 1. a frame body; 2. a material bearing plate; 3. an inclined plate; 4. a limiting plate; 5. a magnetic test stand; 6. a first mount; 7. a second mounting base; 8. a mounting shaft; 9. a shaft groove; 10. a magnetic base; 11. a first gimbal; 12. wind wheel radial runout measuring instrument; 13. a guide rail; 14. a slide block; 15. a second gimbal; 16. a rotating shaft radial runout measuring instrument; 17. a roller; 18. a hollow groove; 19. a striking plate; 20. a material supporting plate; 21. a lifting mechanism; 22. a positioning groove; 23. a clamping jaw; 24. a translation mechanism; 25. a laser marking machine.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-3, the present utility model provides a technical solution: the utility model provides a cross flow wind wheel runout test frame, including support body 1, the middle part of support body 1 is equipped with material bearing plate 2, the front end of material bearing plate 2 stretches out and is connected with inclined plate 3 behind support body 1, and its rear end stretches out and is connected with limiting plate 4 behind support body 1, the top rear side of support body 1 is equipped with magnetism testboard 5, be equipped with first mount pad 6 on magnetism testboard 5, one side of first mount pad 6 is equipped with second mount pad 7, one side that second mount pad 7 is close to first mount pad 6 is equipped with installation axle 8, the top of first mount pad 6 is equipped with axial slot 9, be equipped with the magnetic seat 10 rather than through magnetism connection on magnetism testboard 5, the top of magnetic seat 10 is connected with first universal support 11, install wind wheel radial runout measuring apparatu 12 on the first universal support 11;

Through putting the work piece on inclined plate 3 voluntarily, make the work piece slide along inclined plate 3 and slide to hold flitch 2 according to gravity, block the work piece through limiting plate 4, prevent that the work piece from sliding to fall outside holding flitch 2, the unloading of the cross flow wind wheel of being convenient for, the workman can take the work piece from holding flitch 2 rear end, and install the work piece between axle groove 9 and installation axle 8, specifically, the one end of cross flow wind wheel is connected with the steel axle, the other end is connected with the axle sleeve, insert the axle sleeve in the outside of installation axle 8, place the steel axle on axle groove 9, then detect the runout volume of each section excircle of cross flow wind wheel through wind wheel radial runout measuring instrument 12, be convenient for change the testing position of wind wheel radial runout measuring instrument 12 through magnetic seat 10, further adjust testing position and angle through first universal support 11, improve the suitability, the detection of the cross flow wind wheel of being convenient for, high safety and little production space occupation.

In order to facilitate improvement of applicability, in this embodiment, preferably, the magnetic test board 5 is provided with a guide rail 13, a slide block 14 is slidably connected to the guide rail 13, the first mounting seat 6 is fixedly connected to one side of the slide block 14, which is close to the second mounting seat 7, the second mounting seat 7 is fixed to the magnetic test board 5, and the purpose is to slide along the guide rail 13 through the slide block 14 to drive the first mounting seat 6 to move, so that the relative distance between the shaft groove 9 and the mounting shaft 8 is adjusted, and the magnetic test board is suitable for detecting cross flow wind wheels with different length sizes.

In order to conveniently detect the runout of the outer circle of the wind wheel steel shaft, in this embodiment, preferably, the top of the sliding block 14 is connected with a second universal bracket 15, and a rotating shaft radial runout measuring instrument 16 is installed on the second universal bracket 15, so that the purpose is to detect the runout of the outer circle of the wind wheel steel shaft through the rotating shaft radial runout measuring instrument 16, and the sliding block 14 slides along the guide rail 13 and drives the second universal bracket 15 to move, thereby improving applicability and being suitable for detecting cross-flow wind wheels with different length sizes.

In order to detect the runout of each section of the outer circle of the through-flow wind wheel and detect the runout of the outer circle of the steel shaft by manpower, in this embodiment, preferably, the radial runout measuring instrument 16 of the rotating shaft and the radial runout measuring instrument 12 of the wind wheel are both dial indicators, so as to detect the runout of each section of the outer circle of the through-flow wind wheel by the radial runout measuring instrument 12 of the wind wheel, and detect the runout of the outer circle of the steel shaft by the radial runout measuring instrument 16 of the rotating shaft.

In order to facilitate improving the smoothness of rotation of the through-flow wind wheel, in this embodiment, preferably, two rollers 17 are symmetrically connected to two sides of the axis of the shaft groove 9, and the two rollers 17 are both rotatably connected to the first mounting seat 6, so that the steel shaft of the through-flow wind wheel is placed between the two rollers 17, so that the two rollers 17 support the steel shaft, and when the through-flow wind wheel rotates, the steel shaft rotates on the two rollers 17, thereby improving the smoothness and stability of rotation of the through-flow wind wheel.

In order to save materials conveniently, in this embodiment, preferably, the middle part of the material bearing plate 2 is provided with a hollow groove 18, so as to save materials and reduce cost by providing the hollow groove 18.

In order to facilitate the detection of the rigidity strength of the cross-flow wind wheel, in this embodiment, preferably, the front side of the frame body 1 is connected with a knocking plate 19, so as to detect the rigidity strength of the cross-flow wind wheel by knocking the cross-flow wind wheel on the knocking plate 19.

Referring to fig. 4, the present utility model further provides a blanking device, which includes any of the above through-flow wind wheel runout test frames, and further includes a material supporting plate 20 and a lifting mechanism 21 for driving the material supporting plate 20 to perform lifting movement, wherein the material supporting plate 20 is provided with two positioning grooves 22 respectively arranged on two sides of the material supporting plate 2, and the upper sides of the two material supporting plates 20 are respectively provided with a positioning groove 22 corresponding to the inclined plate 3;

The lifting mechanism 21 drives the material supporting plate 20 to lift, the material is taken when the material supporting plate 20 lifts, the cross flow wind wheel is taken and placed on the positioning groove 22, then the cross flow wind wheel is driven to descend, the cross flow wind wheel is ejected out of the positioning groove 22 through the inclined plate 3 in the descending process, the cross flow wind wheel slides along the inclined plate 3 according to gravity, then the cross flow wind wheel slides onto the material supporting plate 2, the limiting plate 4 blocks a workpiece, the workpiece is prevented from sliding out of the material supporting plate 2, the blanking of the cross flow wind wheel is facilitated, the safety is high, and the occupied production space is small.

Referring to fig. 5, in order to facilitate the blanking of the through-flow wind wheel, in this embodiment, preferably, a clamping jaw 23 is disposed above the material supporting plate 20, one side of the clamping jaw 23 is connected with a translation mechanism 24 for driving the clamping jaw 23 to move horizontally, so that the clamping jaw 23 clamps the through-flow wind wheel and moves above the material supporting plate 20, then the lifting mechanism 21 drives the material supporting plate 20 to lift, and finally the clamping jaw 23 releases the through-flow wind wheel and places the through-flow wind wheel on the positioning groove 22, thereby facilitating the blanking of the through-flow wind wheel.

Referring to fig. 6, in order to facilitate marking one side of the through-flow wind wheel, in this embodiment, preferably, a laser marking machine 25 is disposed on a side of the clamping jaw 23 away from the translation mechanism 24, so that when the clamping jaw 23 moves the through-flow wind wheel above the material supporting plate 20, the laser marking machine 25 marks one side of the through-flow wind wheel, then the clamping jaw 23 loosens the through-flow wind wheel and places the through-flow wind wheel on the positioning groove 22, and finally the lifting mechanism 21 drives the material supporting plate 20 to descend to drive the through-flow wind wheel to descend, and in the descending process, the through-flow wind wheel is ejected out of the positioning groove 22 through the inclined plate 3, so that the through-flow wind wheel slides along the inclined plate 3 according to gravity.

Finally, it should be noted that: the foregoing is merely a preferred example of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (10)

1. The utility model provides a cross flow wind wheel test frame that beats, includes support body (1), its characterized in that: the middle part of support body (1) is equipped with holds flitch (2), the front end of holding flitch (2) stretches out and is connected with hang plate (3) behind support body (1), and its rear end stretches out and be connected with limiting plate (4) behind support body (1), the top rear side of support body (1) is equipped with magnetism testboard (5), be equipped with first mount pad (6) on magnetism testboard (5), one side of first mount pad (6) is equipped with second mount pad (7), one side that second mount pad (7) are close to first mount pad (6) is equipped with installation axle (8), the top of first mount pad (6) is equipped with axial groove (9), be equipped with on magnetism testboard (5) rather than through magnetism connection's magnetism seat (10), the top of magnetism seat (10) is connected with first universal support (11), install wind wheel radial runout measuring apparatu (12) on first universal support (11).

2. The cross flow wind wheel runout test stand according to claim 1, wherein: be equipped with guide rail (13) on magnetic test board (5), sliding connection has slider (14) on guide rail (13), first mount pad (6) fixed connection is close to one side of second mount pad (7) in slider (14), second mount pad (7) are fixed in on magnetic test board (5).

3. The cross flow wind wheel runout test stand according to claim 2, wherein: the top of slider (14) is connected with second universal support (15), install pivot radial runout measuring apparatu (16) on second universal support (15).

4. A cross flow rotor runout test stand according to claim 3, wherein: the rotating shaft radial runout measuring instrument (16) and the wind turbine radial runout measuring instrument (12) are dial indicators.

5. The cross flow wind wheel runout test stand according to claim 1, wherein: two rollers (17) are symmetrically connected to two sides of the axis of the shaft groove (9), and the two rollers (17) are both rotationally connected to the first mounting seat (6).

6. The cross flow wind wheel runout test stand according to claim 1, wherein: the middle part of the material bearing plate (2) is provided with a hollow groove (18).

7. The cross flow wind wheel runout test stand according to claim 1, wherein: the front side of the frame body (1) is connected with a knocking plate (19).

8. A discharging device, characterized in that: the through-flow wind wheel runout test frame comprises any one of claims 1-5, and further comprises a material supporting plate (20) and a lifting mechanism (21) for driving the material supporting plate (20) to perform lifting movement, wherein the material supporting plate (20) is provided with two positioning grooves (22) which are respectively arranged on two sides of the material supporting plate (2), and the upper sides of the two material supporting plates (20) are respectively provided with a positioning groove (22) which is correspondingly arranged with the inclined plate (3).

9. The blanking apparatus of claim 8 wherein: the material supporting plate is characterized in that a clamping jaw (23) is arranged above the material supporting plate (20), and one side of the clamping jaw (23) is connected with a translation mechanism (24) for driving the clamping jaw to horizontally move.

10. The blanking apparatus of claim 9 wherein: and a laser marking machine (25) is arranged on one side of the clamping jaw (23) far away from the translation mechanism (24).