CN218342044U - Support for rotary machine comprehensive fault simulation detection training platform - Google Patents

Abstract

The utility model discloses a rotary machine synthesizes fault simulation test training support for platform, including supporting box, equipment angular adjustment device and the fixed displacement device of equipment, equipment angular adjustment device includes driving motor, transmission rotation axis, drive gear, reduction gear, speed reduction driven shaft and support chassis, the fixed displacement device of equipment includes that rotation support frame, rotating electrical machines, driving screw, rotating transmission shaft, drive belt, rotatory driven shaft, driven screw, pivot support, slider shifting chute, connecting plate slider, supporting seat connecting plate, equipment supporting seat, flexible centre gripping spring and equipment remove the grip block. The utility model belongs to the technical field of mechanical detection support, specifically indicate a rotating machinery synthesizes fault simulation and detects support for training platform, the problem that the support carries out angle and altitude mixture control to mechanical equipment when effectual having solved mechanical detection, realized conveniently carrying on angle and altitude mixture control, conveniently with the fixed purpose of mechanical equipment.

Description

Support for rotary machine comprehensive fault simulation detection training platform

Technical Field

The utility model belongs to the technical field of the mechanical detection support, specifically indicate a rotating machinery synthesizes fault simulation and detects support for training platform.

Background

The fault diagnosis of the rotary machine is an important part in the fault diagnosis of the equipment, along with the development of large-scale, high-speed, continuous and automatic rotary machine equipment, the quality requirements on equipment management and maintenance personnel are higher and higher, the high-efficiency and safe production is ensured, the downtime caused by faults is reduced, and the fault diagnosis platform is a premise for improving the economic benefit and the social benefit of enterprises.

SUMMERY OF THE UTILITY MODEL

To the above situation, for overcoming prior art's defect, the utility model provides a rotating machinery synthesizes fault simulation detection training support for platform, the effectual support that uses when having solved present rotating machinery and synthesizes fault simulation detection carries out angle and height adjustment and inconvenient problem fixed with mechanical equipment, the support that uses when having realized rotating machinery and synthesizes fault simulation detection conveniently carries out angle and height adjustment to mechanical equipment and conveniently fixes mechanical equipment's purpose, a very practical rotating machinery synthesizes fault simulation detection training support for platform.

The utility model adopts the following technical scheme: the utility model relates to a support for a rotary machine comprehensive fault simulation detection training platform, which comprises a support box body, an equipment angle adjusting device and an equipment fixed displacement device, wherein the equipment angle adjusting device is arranged on the support box body, the equipment fixed displacement device is arranged on the equipment angle adjusting device, the equipment angle adjusting device comprises a driving motor, a transmission rotating shaft, a transmission gear, a reduction driven shaft and a support chassis, the driving motor is arranged in the support box body, the transmission rotating shaft is arranged on the driving motor, the transmission gear is arranged on the transmission rotating shaft, the reduction gear is engaged with the transmission gear, the reduction driven shaft is arranged on the reduction gear, the support chassis is arranged on the reduction driven shaft, the equipment fixed displacement device comprises a rotary support frame, a rotary motor, a transmission screw, a rotary transmission shaft, a rotary driven shaft, a driven screw, a rotary shaft seat, a slider moving groove, a connecting plate slider, a support seat, an equipment support seat, a telescopic clamping spring and an equipment moving clamping plate, the rotary support frame is arranged on the reduction support frame, the rotary motor is arranged on the rotary motor, the rotary transmission shaft is arranged on the rotary transmission shaft, the rotary transmission shaft is arranged on the connecting plate, the rotary spring is arranged on the rotary support frame, the rotary support frame is arranged on the rotary spring moving groove, the utility model discloses a mechanical equipment, including equipment removal grip block, driving shaft, drive support box, drive rotation axis, drive gear, drive support seat connecting plate, connecting plate slider, telescopic clamping spring, drive gear's effect is rotated and is driven reduction gear rotation, reduction gear's effect is rotated and is driven the reduction driven shaft rotation, the effect of reduction driven shaft is rotated and drives rotation support frame rotation, rotation support frame's effect is to support rotating electrical machines, drive screw's effect is rotated and is driven the support seat connecting plate and remove, rotation drive shaft's effect is rotated and is driven the drive belt rotation, the effect of drive belt is rotated and is driven the rotation of rotation driven shaft, the effect of rotation driven shaft is rotated and drives driven screw and rotate, the effect of connecting plate slider is removed and drives the support seat connecting plate and removes, the effect of support seat is removed and drives equipment supporting seat and remove, the effect of equipment support seat is conveniently to place mechanical equipment, telescopic clamping spring's effect is that telescopic driving equipment removal grip block removed, the effect of equipment removal grip block is removed and is fixed with the mechanical equipment centre gripping.

Furthermore, the speed reduction driven shaft is arranged between the supporting base plate and the rotating supporting frame, the rotating motor is arranged between the rotating supporting frame and the transmission screw, the transmission screw is arranged between the rotating transmission shaft and the rotating transmission shaft, the rotating transmission shaft is arranged between the transmission screw and the rotating shaft support, the supporting seat connecting plate is arranged between the connecting plate sliding block and the equipment supporting seat, and the telescopic clamping spring is arranged between the equipment supporting seat and the equipment moving clamping plate.

Further, the transmission rotation axis is perpendicular setting with driving motor, drive gear is perpendicular setting with the transmission rotation axis, reduction gear is perpendicular setting with the speed reduction driven shaft, it is perpendicular setting with the speed reduction driven shaft to support the chassis, the rotation support frame is perpendicular setting with the speed reduction driven shaft, drive screw is perpendicular setting with rotating electrical machines, the supporting seat connecting plate is perpendicular setting with the connecting plate slider, the equipment supporting seat is perpendicular setting with the supporting seat connecting plate, the equipment removes the grip block and is perpendicular setting with flexible centre gripping spring.

Further, the supporting box body is the cuboid setting, the rotation support frame is the U-shaped setting, the connecting plate slider is the rectangle setting, the supporting seat connecting plate is the rectangle setting, the equipment removes the grip block and is the rectangle setting.

Further, the connecting plate slider is equipped with two sets ofly, the supporting seat connecting plate is equipped with two sets ofly.

Furthermore, two sets of connecting plate slider is the symmetry setting about the equipment supporting seat, and two sets of supporting seat connecting plate is the symmetry setting about the equipment supporting seat.

Adopt above-mentioned structure the utility model discloses the beneficial effect who gains as follows: the utility model provides a rotating machinery synthesizes fault simulation test training support for platform, the effectual support that uses when having solved present rotating machinery and synthesize fault simulation test carries out angle and altitude mixture control and inconvenient problem fixed with mechanical equipment, the support that uses when having realized rotating machinery and synthesize fault simulation test conveniently carries out angle and altitude mixture control and conveniently fixes mechanical equipment's purpose to mechanical equipment, is a very practical rotating machinery synthesizes fault simulation test training support for platform.

Drawings

Fig. 1 is the utility model relates to a rotating machinery synthesizes overall structure schematic diagram of fault simulation testing training support for platform.

The device comprises a supporting box body 1, a supporting box body 2, a device angle adjusting device 3, a device fixing and displacement device 4, a driving motor 5, a transmission rotating shaft 6, a transmission gear 7, a reduction gear 8, a reduction driven shaft 9, a supporting chassis 10, a rotary supporting frame 11, a rotary motor 12, a transmission screw 13, a rotary transmission shaft 14, a transmission belt 15, a rotary driven shaft 16, a driven screw 17, a rotating shaft support seat 18, a sliding block moving groove 19, a connecting plate sliding block 20, a supporting seat connecting plate 21, a device supporting seat 22, a telescopic clamping spring 23 and a device moving clamping plate.

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments; based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1, the present invention relates to a support for a rotary machine comprehensive failure simulation test training platform, which comprises a support box 1, an equipment angle adjusting device 2 and an equipment fixed displacement device 3, wherein the equipment angle adjusting device 2 is disposed on the support box 1, the equipment fixed displacement device 3 is disposed on the equipment angle adjusting device 2, the equipment angle adjusting device 2 comprises a driving motor 4, a transmission rotating shaft 5, a transmission gear 6, a reduction gear 7, a reduction driven shaft 8 and a support chassis 9, the driving motor 4 is disposed in the support box 1, the transmission rotating shaft 5 is disposed on the driving motor 4, the transmission gear 6 is disposed on the transmission rotating shaft 5, the reduction gear 7 is engaged with the transmission gear 6, the reduction driven shaft 8 is disposed on the reduction gear 7, the support chassis 9 is disposed on the reduction driven shaft 8, the equipment fixed displacement device 3 comprises a rotary support frame 10, a rotary motor 11, a transmission screw 12, a rotary transmission shaft 13, a transmission belt 14, a rotary support frame 15, a driven screw 16, a rotary support seat 17, a slider moving groove 18, a slider 19, a connecting plate 20, a clamping support seat 21, a clamping spring 22 and a clamping support seat 23, a rotary support seat 13, a rotary screw 13 is disposed on the transmission shaft 13, the rotary screw 13 is disposed on the driven shaft 14 is disposed on the driven shaft 12, the rotary motor 14 is disposed on the rotary support frame 12, the rotary support frame 14 is disposed on the rotary support frame 12, the rotary screw 13, the rotary support frame 12 is disposed on the rotary support frame 12, the rotary screw 13 is disposed on the rotary support frame 12, the rotary support frame 14, the connecting plate slider 19 is arranged on the slider moving groove 18, the supporting seat connecting plate 20 is arranged on the connecting plate slider 19, the equipment supporting seat 21 is arranged on the supporting seat connecting plate 20, the telescopic clamping spring 22 is arranged on the equipment supporting seat 21, and the equipment moving clamping plate 23 is arranged on the telescopic clamping spring 22.

The speed reduction driven shaft 8 is arranged between the supporting base plate 9 and the rotating supporting frame 10, the rotating motor 11 is arranged between the rotating supporting frame 10 and the transmission screw 12, the transmission screw 12 is arranged between the rotating transmission shaft 13 and the rotating motor 11, the rotating transmission shaft 13 is arranged between the transmission screw 12 and the rotating shaft support 17, the support connection plate 20 is arranged between the connection plate slider 19 and the equipment supporting seat 21, and the telescopic clamping spring 22 is arranged between the equipment supporting seat 21 and the equipment moving clamping plate 23.

Transmission rotation axis 5 is perpendicular setting with driving motor 4, drive gear 6 is perpendicular setting with transmission rotation axis 5, reduction gear 7 is perpendicular setting with speed reduction driven shaft 8, it is perpendicular setting with speed reduction driven shaft 8 to support chassis 9, rotation support frame 10 is perpendicular setting with speed reduction driven shaft 8, drive screw 12 is perpendicular setting with rotating electrical machines 11, supporting seat connecting plate 20 is perpendicular setting with connecting plate slider 19, equipment supporting seat 21 is perpendicular setting with supporting seat connecting plate 20, equipment removes grip block 23 and is perpendicular setting with flexible clamping spring 22.

The supporting box body 1 is a cuboid, the rotary supporting frame 10 is a U-shaped arrangement, the connecting plate sliding block 19 is a rectangular arrangement, the supporting seat connecting plate 20 is a rectangular arrangement, and the equipment moving clamping plate 23 is a rectangular arrangement.

The connecting plate slide blocks 19 are provided with two groups, and the supporting seat connecting plates 20 are provided with two groups.

Two sets of connecting plate slider 19 is the symmetry setting about equipment supporting seat 21, and two sets of supporting seat connecting plate 20 is the symmetry setting about equipment supporting seat 21.

When the device comprehensive fault simulation training platform is used specifically, a device to be detected is placed between two sets of device moving clamping plates 23 on a device supporting seat 21, the telescopic clamping springs 22 contract to drive the device moving clamping plates 23 to move along with the device moving clamping plates 23, the mechanical device is clamped and fixed by moving the device moving clamping plates 23, then the rotating motor 11 is started, the rotating transmission shaft 13 rotates to drive the transmission belt 14 to rotate, the transmission belt 14 rotates to drive the rotating driven shaft 15 to rotate, the transmission screw 12 and the driven screw 16 rotate along with the transmission screw 12, the transmission screw 12 rotates to drive the connecting plate sliding block 19 and the supporting seat connecting plate 20 to move along the sliding block moving groove 18, the device supporting seat 21 drives the mechanical device to move and adjust the height, then the driving motor 4 is started, the transmission rotating shaft 5 rotates to drive the transmission gear 6 to rotate, the transmission gear 6 rotates to drive the reduction gear 7 to rotate, the reduction gear 7 rotates to drive the reduction driven shaft 8 to rotate, the reduction driven shaft 8 rotates to drive the rotating supporting frame 10 to rotate, the rotating supporting frame 10 rotates to drive the mechanical device to rotate and adjust the angle, and the whole using process of the bracket for the whole rotating mechanical comprehensive fault simulation training platform is completed.

It should be noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims (6)

1. The utility model provides a rotary machine synthesizes fault simulation and detects training support for platform which characterized in that: comprises a supporting box body, an equipment angle adjusting device and an equipment fixing and shifting device, wherein the equipment angle adjusting device is arranged on the supporting box body, the equipment fixing and shifting device is arranged on the equipment angle adjusting device which comprises a driving motor, a transmission rotating shaft, a transmission gear, a reduction driven shaft and a supporting chassis, the driving motor is arranged in the supporting box body, the transmission rotating shaft is arranged on the driving motor, the transmission gear is arranged on the transmission rotating shaft, the reduction gear is engaged on the transmission gear, the reduction driven shaft is arranged on the reduction gear, the supporting chassis is arranged on the speed reducing driven shaft, the equipment fixing and displacing device comprises a rotary supporting frame, a rotary motor, a transmission screw, a rotary transmission shaft, a transmission belt, a rotary driven shaft, a driven screw, a rotary shaft support, a slide block moving groove, a connecting plate slide block, a supporting seat connecting plate, an equipment supporting seat, a telescopic clamping spring and an equipment moving clamping plate, the rotating support frame is arranged on the speed reduction driven shaft, the rotating motor is arranged on the rotating support frame, the transmission screw is arranged on the rotating motor, the rotating transmission shaft is arranged on the transmission screw, the transmission belt is arranged on the rotating transmission shaft, the rotating driven shaft is arranged on the transmission belt, the driven screw is arranged on the rotating driven shaft, the rotating shaft support is arranged on the rotating transmission shaft, the sliding block moving groove is arranged on the rotary supporting frame, the connecting plate sliding block is arranged on the sliding block moving groove, the supporting seat connecting plate is arranged on the connecting plate sliding block, the equipment supporting seat is arranged on the supporting seat connecting plate, the telescopic clamping spring is arranged on the equipment supporting seat, and the equipment moving clamping plate is arranged on the telescopic clamping spring.

2. The support for the rotating machinery comprehensive fault simulation detection training platform according to claim 1, characterized in that: the speed reduction driven shaft is arranged between the supporting base plate and the rotating supporting frame, the rotating motor is arranged between the rotating supporting frame and the transmission screw, the transmission screw is arranged between the rotating transmission shaft and the rotating transmission shaft, the rotating transmission shaft is arranged between the transmission screw and the rotating shaft support, the supporting seat connecting plate is arranged between the connecting plate sliding block and the equipment supporting seat, and the telescopic clamping spring is arranged between the equipment supporting seat and the equipment moving clamping plate.

3. The support for the rotating machinery comprehensive fault simulation detection training platform according to claim 2, characterized in that: the utility model discloses a flexible clamp spring of equipment, including drive shaft, reduction gear, rotation support frame, drive shaft, drive screw, connecting plate slider, equipment supporting seat, driving motor, drive gear, reduction gear, rotation support frame, rotatory support frame, drive shaft, drive screw, drive motor, support connection plate, equipment supporting seat and support connection plate, the transmission rotation axis is perpendicular setting with driving motor, drive gear is perpendicular setting with the transmission rotation axis, reduction gear is perpendicular setting with the speed reduction driven shaft, it is perpendicular setting with the speed reduction driven shaft to support the chassis, rotatory support frame is perpendicular setting with the speed reduction driven shaft, drive screw is perpendicular setting with the rotating electrical machines, the support connection plate is perpendicular setting with the connecting plate slider, the equipment removes the grip block and is perpendicular setting with flexible clamping spring.

4. The support for the rotary machine comprehensive fault simulation detection training platform according to claim 3, wherein: the supporting box body is a cuboid, the rotary supporting frame is a U-shaped structure, the connecting plate sliding block is a rectangular structure, the supporting seat connecting plate is a rectangular structure, and the equipment moving clamping plate is a rectangular structure.

5. The support for the rotary machine comprehensive fault simulation detection training platform according to claim 4, wherein: the connecting plate slider is equipped with two sets ofly, the supporting seat connecting plate is equipped with two sets ofly.

6. The support for the rotary machine comprehensive fault simulation detection training platform according to claim 5, characterized in that: and the connecting plate sliding blocks are symmetrically arranged relative to the equipment supporting seat, and the supporting seat connecting plates are symmetrically arranged relative to the equipment supporting seat.

Images