CN221390885U - Transmission extension shaft mounting equipment capable of quickly finding axis of rotating shaft - Google Patents

Abstract

The utility model relates to the technical field of mechanical transmission, in particular to a transmission extension shaft mounting device for quickly finding the axis of a rotating shaft, which aims to help operators quickly complete the axis finding between a transmission shaft and a driving shaft in a production workshop accompanied by insufficient light and high-temperature noise, and accurately obtain the deviation direction and degree of the axis of the transmission shaft and the axis of the driving shaft through the readings of a first pressure gauge and a second pressure gauge, and effectively move and adjust a rotating motor and the driving shaft by taking the deviation direction and degree as a reference, so as to achieve the aim of finally determining the axis finding between the transmission shaft and the driving shaft; the device has the advantages of reliable structure, strong applicability, simple and convenient operation and accurate measurement, ensures that the connection and installation of the transmission shaft, the transmission extension shaft and the driving shaft are convenient and reliable, and well solves the technical problems caused by the misalignment of the axes of the transmission shaft, the transmission extension shaft and the driving shaft.

Description

Transmission extension shaft mounting equipment capable of quickly finding axis of rotating shaft

Technical Field

The utility model relates to the technical field of mechanical transmission, in particular to a transmission extension shaft mounting device capable of quickly finding the axis of a rotating shaft.

Background

Under the partial use scene, need the remote transmission of rotating electrical machines, under the condition that rotating electrical machines self drive shaft distance is insufficient to reach the rotation demand end, need connect the transmission shaft and lengthen, still be insufficient to reach the rotation demand end when drive shaft connection transmission shaft distance, still need connect the transmission extension axle and lengthen.

When the transmission extension shaft is replaced or lengthened and the transmission shaft and the driving shaft are required to be reconnected, the alignment of the axis of the transmission shaft and the axis of the driving shaft must be ensured, if the transmission extension shaft is installed under the state that the axis of the transmission shaft is not coincident with the axis of the driving shaft, the axis of the transmission extension shaft cannot be coincident with the axis of the transmission shaft and the axis of the driving shaft, abnormal shaking of the transmission shaft, the transmission extension shaft and the driving shaft is necessarily caused in the high-speed rotation process, abrasion is increased, and even serious accidents occur.

The driving shaft axis of the transmission shaft is required to be aligned in scenes such as power rooms, factories and the like, which have insufficient light and high-temperature noise, and the rotating motor and the driving shaft are difficult to move, and the axis alignment is a fine operation, so that the driving shaft axis alignment is a challenge for operators.

Disclosure of utility model

The utility model aims to provide a transmission extension shaft mounting device for quickly finding the axis of a rotating shaft, and aims to help operators to quickly find the axis of a driving shaft of the transmission shaft in a production workshop accompanied by insufficient light and high-temperature noise, and the deviation direction and degree of the axis of the transmission shaft and the axis of the driving shaft are accurately obtained through the readings of a first pressure gauge and a second pressure gauge, so that the operators can effectively move and adjust a rotating motor and the driving shaft by taking the deviation direction and degree as a reference, and the aim of finally determining the axis of the driving shaft of the transmission shaft to find the axis of the transmission shaft is fulfilled.

To achieve the purpose, the utility model adopts the following technical scheme.

A transmission extension shaft mounting device for quickly finding the axis of a rotating shaft comprises a flange fixing plate and an auxiliary rod;

The flange fixing plate is arranged on a flange opening of the transmission shaft through a first fastening component, the auxiliary rod comprises a first auxiliary rod and a second auxiliary rod, one end of the first auxiliary rod is arranged on one end of the flange fixing plate through a second fastening component, and one end of the second auxiliary rod is arranged on the other end of the flange fixing plate through a third fastening component;

One end of the first auxiliary rod, which is far away from the flange fixing plate, is provided with a first pressure gauge through a first clamping assembly, and a probe of the first pressure gauge is vertically aligned with the side surface of a flange opening of the driving shaft;

one end of the second auxiliary rod, which is far away from the flange fixing plate, is provided with a second pressure gauge through a second clamping assembly, and a probe of the second pressure gauge is vertically aligned with the front face of a flange opening of the driving shaft.

Still further, the first fastening assembly includes the symmetry set up in fastening bolt on the flange fixed plate, the flange fixed orifices has been seted up to the symmetry on the flange fixed plate, set up a plurality of with the corresponding drive shaft hole in flange fixed orifices on the flange mouth of transmission shaft, fastening bolt respectively with the flange fixed orifices with the drive shaft hole cooperatees, still threaded connection has first fastening nut on the fastening bolt.

Still further, the second fastening assembly is including connecting in first threaded rod on the first auxiliary rod, set up on the flange fixed plate with first threaded rod matched with first locating hole, still threaded connection has two second fastening nuts on the first threaded rod, two the second fastening nut is located respectively the both sides of flange fixed plate.

Still further, the third fastening assembly is including connecting in second threaded rod on the second auxiliary rod, set up on the flange fixed plate with second threaded rod matched with second locating hole, still threaded connection has two third fastening nuts on the second threaded rod, two the third fastening nut is located respectively the both sides of flange fixed plate.

Still further, first clamping assembly include with first manometer is pressed from both sides mutually the centre gripping of first manometer, first anchor clamps fixed orifices has been seted up on the first manometer is pressed from both sides, first auxiliary rod is kept away from the one end of first threaded rod has seted up first contact hole, be provided with first clamping bolt in first contact hole and the first anchor clamps fixed orifices simultaneously, threaded connection has first clamping nut on the first clamping bolt.

Still further, first clamping assembly include with the second manometer presss from both sides mutually centre gripping of second manometer, second clamp fixed orifices has been seted up on the second manometer presss from both sides, the second auxiliary rod is kept away from the one end of second threaded rod has been seted up the second contact hole, be provided with the second clamping bolt simultaneously in second contact hole and the second clamp fixed orifices, threaded connection has the second clamping nut on the second clamping bolt.

Furthermore, a plurality of standby flange fixing holes are formed in the flange fixing plate.

Furthermore, a plurality of standby positioning holes are formed in the flange fixing plate.

The utility model has the beneficial effects that.

1. The deviation direction and degree of the axis of the transmission shaft and the axis of the driving shaft are accurately obtained through the readings of the first pressure gauge and the second pressure gauge, and a direct indication is provided for the next movement adjustment of the rotating motor and the driving shaft to enable the axis of the driving shaft to be in the correct direction coincident with the axis of the transmission shaft.

2. When the drive shaft axis and the drive shaft axis are coincident, the readings of the first pressure gauge and the second pressure gauge can provide clear completion indication, and operators can clearly know that the operation is completed.

3. The flange fixing plate is matched with the flange fixing hole, the standby flange fixing hole, the positioning hole, the standby positioning hole and the auxiliary rod with the threaded rod, and can be matched with transmission shafts with different thicknesses and transmission extension shafts with different lengths, so that the applicability is wide.

Drawings

FIG. 1 is a schematic diagram of a drive extension shaft mounting apparatus of the present utility model for quickly locating the axis of a spindle.

Fig. 2 is a schematic view of a situation where the drive shaft axis is parallel to but not coincident with the drive shaft axis.

Fig. 3 is a schematic view of a situation in which the drive shaft axis is not parallel to the drive shaft axis.

Wherein, 1, a transmission shaft; 2. a drive shaft; 3. a transmission extension shaft; 4. a flange fixing plate; 5. a first auxiliary lever; 6. a second auxiliary lever; 7. a first pressure gauge; 8. a second pressure gauge; 9. a fastening bolt; 10. a flange fixing hole; 11. a transmission shaft hole; 12. a first fastening nut; 13. a first threaded rod; 14. a first positioning hole; 15. a second fastening nut; 16. a second threaded rod; 17. a second positioning hole; 18. a third fastening nut; 19. a first pressure gauge clamp; 20. a first clamp fixing hole; 21. a first contact hole; 22. a first clamping bolt; 23. a first clamping nut; 24. a second pressure gauge clamp; 25. a second clamp fixing hole; 26. a second contact hole; 27. a second clamping bolt; 28. a second clamping nut; 29. a standby flange fixing hole; 30. and (5) a standby positioning hole.

Detailed Description

The technical scheme of the utility model is further described below with reference to the accompanying drawings 1-3 and the detailed description.

Referring to fig. 1, in this embodiment, the transmission extension shaft mounting device is disposed between a transmission shaft 1 and a driving shaft 2 to effectively align the axis between the transmission shaft 1 and the driving shaft 2, so that two ends of a transmission extension shaft 3 are accurately mounted between the transmission shaft 1 and the driving shaft 2 through the cooperation of bolts and nuts, so as to realize the superposition of the triaxial axes of the transmission shaft 1, the transmission extension shaft 3 and the driving shaft 2, and further, the transmission extension shaft 1, the transmission extension shaft 3 and the driving shaft 2 cannot generate abnormal shake to increase abrasion in the high-speed rotation process, even serious accidents occur.

In particular, referring to fig. 1, in this embodiment, the drive extension shaft 3 mounting apparatus includes a flange fixing plate 4 and an auxiliary rod. Wherein the flange fixing plate 4 is fixedly mounted on the flange opening of the transmission shaft 1 by a first fastening assembly comprising a fastening bolt 9 and a first fastening nut 12. Wherein, the two fastening bolts 9 and the two first fastening nuts 12 are respectively arranged, and the two fastening bolts 9 and the two first fastening nuts 12 are respectively in threaded connection; and flange fixed holes 10 are symmetrically formed in the flange fixed plate 4, a plurality of transmission shaft holes 11 are formed in the flange opening of the transmission shaft 1, and when the flange fixed plate 4 is abutted to the flange opening of the transmission shaft 1, two of the transmission shaft holes 11 correspond to the two flange fixed holes 10.

Simultaneously, the fastening bolt 9 is mutually matched with the transmission shaft hole 11 and the flange fixing hole 10 respectively, so that the fastening bolt 9 sequentially penetrates through the flange opening of the transmission shaft 1 and the flange fixing plate 4 along the transmission shaft hole 11 and the flange fixing hole 10, and then the first fastening nut 12 is screwed into the fastening bolt 9, so that the flange fixing plate 4 is conveniently fastened and installed on one side of the flange opening of the transmission shaft 1.

In addition, referring to fig. 1, in the present embodiment, the auxiliary lever includes a first auxiliary lever 5 and a second auxiliary lever 6. Wherein one end of the first auxiliary lever 5 is mounted on one end of the flange fixing plate 4 through the second fastening assembly; one end of the second auxiliary rod 6 is mounted on the other end of the flange fixing plate 4 through a third fastening assembly, and the first auxiliary rod 5 and the second auxiliary rod 6 are respectively vertically mounted on the flange fixing plate 4 through the cooperation of the second fastening assembly and the third fastening assembly; and the first auxiliary lever 5 and the second auxiliary lever 6 are disposed in parallel with each other to extend toward the driving shaft 2, respectively.

When the axis between the transmission shaft 1 and the driving shaft 2 is required to be aligned, the flange fixing plate 4 is arranged on the flange opening of the transmission shaft 1 through the matching of the fastening bolt 9 and the first fastening nut 12, so that the transmission shaft 1 is combined with the flange fixing plate 4; and then through the cooperation of the second fastening component and the third fastening component, the first auxiliary rod 5 and the second auxiliary rod 6 are respectively arranged at two ends of the flange fixing plate 4, so that the flange fixing plate 4 and the auxiliary rod form a whole, and then the flange fixing plate 4 and the auxiliary rod can be driven to rotate together by manually rotating the transmission shaft 1, the purpose of indicating the movement adjustment of the driving shaft 2 by using the axis of the transmission shaft 1 as a datum line and the purpose of meeting the coincidence of the axis of the driving shaft 2 and the axis of the transmission shaft 1 by using the auxiliary rod is realized.

Specifically, referring to fig. 1, in the present embodiment, the second fastening assembly includes a first threaded rod 13 and a second fastening nut 15. Wherein, one end of the first threaded rod 13 is connected to one end of the first auxiliary rod 5, and a first positioning hole 14 is formed on the flange fixing plate 4, and the first positioning hole 14 and the first threaded rod 13 are mutually matched, so that one end of the first threaded rod 13 far away from the first auxiliary rod 5 penetrates through the flange fixing plate 4 along the first positioning hole 14. The two second fastening nuts 15 are arranged, the two second fastening nuts 15 are simultaneously in threaded connection with the first threaded rod 13, and the two second fastening nuts 15 are respectively positioned on two sides of the flange fixing plate 4.

By screwing one of the second fastening nuts 15 onto the first threaded rod 13, then screwing the first threaded rod 13 onto the first threaded rod 13 along the first positioning hole 14, and then screwing the remaining second fastening nuts 15 onto the first threaded rod 13, the two second fastening nuts 15 are respectively abutted against two sides of the flange fixing plate 4 by screwing the two second fastening nuts 15 onto the first threaded rod 13, and therefore the first auxiliary rod 5 is conveniently fastened and installed on the flange fixing plate 4.

Meanwhile, referring to fig. 1, in the present embodiment, the third fastening assembly includes a second threaded rod 16 and a third fastening nut 18. Wherein, one end of the second threaded rod 16 is connected to one end of the second auxiliary rod 6, and a second positioning hole 17 is formed on the flange fixing plate 4, and the second positioning hole 17 and the second threaded rod 16 are mutually matched, so that one end of the second threaded rod 16 far away from the second auxiliary rod 6 penetrates through the flange fixing plate 4 along the second positioning hole 17. The third fastening nuts 18 are provided in two, the two third fastening nuts 18 are simultaneously in threaded connection with the second threaded rod 16, and the two third fastening nuts 18 are respectively located on two sides of the flange fixing plate 4.

The second auxiliary rod 6 is conveniently fastened and installed on the flange fixing plate 4 by screwing one of the third fastening nuts 18 onto the second threaded rod 16, then screwing the second threaded rod 16 along the first positioning hole 14 onto the second threaded rod 16, and then screwing the remaining third fastening nuts 18 onto the second threaded rod 16, so that the two third fastening nuts 18 are respectively abutted against both sides of the flange fixing plate 4 by screwing the two third fastening nuts 18 onto the second threaded rod 16.

When the distance between the first auxiliary rod 5 and the second auxiliary rod 6 and the driving shaft 2 needs to be adjusted, the first auxiliary rod 5 and the second auxiliary rod 6 can be respectively lengthened or shortened towards one end of the driving shaft 2 through the turning of the two second fastening nuts 15 and the two third fastening nuts 18, so that the axis alignment operation of the transmission extension shafts 3 with different lengths between the transmission shaft 1 and the driving shaft 2 before installation is adapted.

In actual operation, since the axis of the drive shaft 2 is not coincident with the axis of the transmission shaft 1, the following two conditions are mainly classified: the first is that the two axes are parallel but not coincident, and the first is shown by referring to FIG. 2; the second is that the two axes are not parallel, as shown with reference to fig. 3. In order to address both of the above-mentioned situations, and referring to fig. 1-3, in this embodiment the drive extension shaft mounting apparatus further comprises a first pressure gauge 7 and a second pressure gauge 8.

The first pressure gauge 7 is installed on one end of the first auxiliary rod 5, which is far away from the flange fixing plate 4, through the first clamping assembly, and the probe of the first pressure gauge 7 is vertically aligned with the side surface of the flange opening of the driving shaft 2, so that the situation that two axes between the driving shaft 2 and the driving shaft 1 are parallel but not coincident is solved. For two axes parallel but not coincident, the rotary multi-point position readings of the first pressure gauge 7 mounted by the first auxiliary lever 5 on the flange mouth side of the driving shaft 2 are necessarily uneven.

The second pressure gauge 8 is installed on one end of the second auxiliary rod 6 far away from the flange fixing plate 4 through a second clamping assembly, and a probe of the second pressure gauge 8 is vertically aligned with the front face of the flange opening of the driving shaft 2, so that the problem that two axes between the driving shaft 2 and the driving shaft 1 are not parallel is solved. For non-parallel axes, the rotary multi-point reading of the second pressure gauge 8 mounted on the second auxiliary rod 6 on the front face of the flange mouth of the driving shaft 2 must be uneven.

Specifically, referring to fig. 1, in the present embodiment, the first clamping assembly includes a first pressure gauge clamp 19, a first clamping bolt 22, and a first clamping nut 23. The first pressure gauge clamp 19 is used for effectively clamping the first pressure gauge 7, a first clamp fixing hole 20 is formed in the first pressure gauge clamp 19, a first contact hole 21 is formed in one end, far away from the first threaded rod 13, of the first auxiliary rod 5, and the first clamping bolt 22 is respectively matched with the first clamp fixing hole 20 and the first contact hole 21, so that the first contact hole 21 penetrates through the first auxiliary rod 5 and the first pressure gauge clamp 19 along the first clamp fixing hole 20 and the first contact hole 21; the first clamp nut 23 is screwed with the first clamp bolt 22.

By screwing the first clamping nut 23 into the first clamping bolt 22, the first auxiliary rod 5 and the first pressure gauge clamp 19 are conveniently and fast assembled and disassembled, and the position of the first pressure gauge 7 is effectively adjusted, so that the first pressure gauge 7 can be vertically aligned with the target position.

Meanwhile, referring to fig. 1, in the present embodiment, the second clamping assembly includes a second pressure gauge clamp 24, a second clamping bolt 27, and a second clamping nut 28. The second pressure gauge clamp 24 is used for effectively clamping the second pressure gauge 8, a second clamp fixing hole 25 is formed in the second pressure gauge clamp 24, a second contact hole 26 is formed in one end, far away from the second threaded rod 16, of the second auxiliary rod 6, and the second clamping bolt 27 is respectively matched with the second clamp fixing hole 25 and the second contact hole 26, so that the second contact hole 26 penetrates through the second auxiliary rod 6 and the second pressure gauge clamp 24 along the second clamp fixing hole 25 and the second contact hole 26; the second clamping nut 28 is screwed with the second clamping bolt 27.

By screwing the second clamping nut 28 onto the second clamping bolt 27, the second auxiliary rod 6 and the second pressure gauge clamp 24 are conveniently and fast mounted and dismounted, and the position of the second pressure gauge 8 is conveniently and effectively adjusted, so that the second pressure gauge 8 can be vertically aligned with the target position.

Preferably, referring to fig. 1, in the present embodiment, a plurality of spare flange fixing holes 29 are formed in the flange fixing plate 4, and the flange fixing plate 4 can be fixedly mounted on flange openings of transmission shafts 1 with different sizes by providing the spare flange fixing holes 29. Meanwhile, a plurality of standby positioning holes 30 are further formed in the flange fixing plate 4, and the auxiliary rod can act on flange openings of driving shafts 2 with different sizes by utilizing the standby positioning holes 30, so that applicability can be effectively improved.

The implementation principle of the transmission extension shaft mounting equipment for quickly finding the axis of the rotating shaft in the embodiment of the application is as follows: because of the maintenance or movement requirement, the transmission shaft 1, the transmission extension shaft 3 and the driving shaft 2 are detached and shifted, and the transmission shaft 1, the transmission extension shaft 3 and the driving shaft 2 are required to be reconnected at present, and the axis alignment operation between the transmission shaft 1 and the driving shaft 2 before the installation of the transmission extension shaft 3 is required to be executed, which comprises the following steps:

Step one, the transmission shaft 1 is visually aligned with the driving shaft 2, and a space for reserving the length of the transmission extension shaft 3 is reserved.

Step two, a first auxiliary rod 5 and a second auxiliary rod 6 are respectively arranged on two sides of the flange fixing plate 4 through a second fastening assembly and a third fastening assembly in advance, and a first pressure gauge 7 and a second pressure gauge 8 are respectively arranged on the first auxiliary rod 5 and the second auxiliary rod 6 through a first clamping assembly and a second clamping assembly; then, the flange fixing holes 10 of the flange fixing plate 4 are aligned with the transmission shaft holes 11 on the flange opening of the transmission shaft 1, and the flange fixing plate 4 is fixedly arranged on the flange opening of the transmission shaft 1 by utilizing the fastening bolts 9 and the first fastening nuts 12 in a matched mode.

And thirdly, adjusting the lengths of the first auxiliary rod 5 and the second auxiliary rod 6, enabling the probe of the first pressure gauge 7 clamped by the first pressure gauge clamp 19 to be vertically aligned with the side face of the flange opening of the driving shaft 2, enabling the probe of the second pressure gauge 8 clamped by the second pressure gauge clamp 24 to be vertically aligned with the front face of the flange opening of the driving shaft 2, and starting to respectively read initial pressure values of the first pressure gauge 7 and the second pressure gauge 8.

Step four, the transmission shaft 1 is manually rotated 90 degrees clockwise, a second group of pressure values of the first pressure gauge 7 and the second pressure gauge 8 are read, the transmission shaft 1 is manually rotated 90 degrees clockwise, a third group of pressure values of the first pressure gauge 7 and the second pressure gauge 8 are read, the transmission shaft 1 is manually rotated 90 degrees clockwise, and a fourth group of pressure values of the first pressure gauge 7 and the second pressure gauge 8 are read.

And fifthly, judging the movement adjustment direction and degree of the driving shaft 2 according to four groups of pressure values of the first pressure gauge 7 and the second pressure gauge 8, repeating the fourth step, and indicating that two axes of the driving shaft 1 and the driving shaft 2 are aligned after the four groups of pressure values of the first pressure gauge 7 and the second pressure gauge 8 are averaged.

And step six, disassembling the flange fixing plate 4, and installing the transmission extension shaft 3 between the transmission shaft 1 and the driving shaft 2, so that the axis alignment process of the transmission shaft 1 and the driving shaft 2 and the installation process of the transmission extension shaft 3 are completed.

The technical principle of the present utility model is described above in connection with the specific embodiments. The description is made for the purpose of illustrating the general principles of the utility model and should not be taken in any way as limiting the scope of the utility model. Other embodiments of the utility model will be apparent to those skilled in the art from consideration of this specification without undue burden.

Claims (8)

1. The utility model provides a transmission extension axle erection equipment of quick alignment pivot axis which characterized in that: comprises a flange fixing plate (4) and an auxiliary rod;

The flange fixing plate (4) is arranged on a flange opening of the transmission shaft (1) through a first fastening assembly, the auxiliary rod comprises a first auxiliary rod (5) and a second auxiliary rod (6), one end of the first auxiliary rod (5) is arranged on one end of the flange fixing plate (4) through a second fastening assembly, and one end of the second auxiliary rod (6) is arranged on the other end of the flange fixing plate (4) through a third fastening assembly;

One end, far away from the flange fixing plate (4), of the first auxiliary rod (5) is provided with a first pressure gauge (7) through a first clamping assembly, and a probe of the first pressure gauge (7) is vertically aligned with the side face of a flange opening of the driving shaft (2);

One end of the second auxiliary rod (6) far away from the flange fixing plate (4) is provided with a second pressure gauge (8) through a second clamping assembly, and a probe of the second pressure gauge (8) is vertically aligned with the front face of a flange opening of the driving shaft (2).

2. A drive extension shaft mounting apparatus for quickly locating a shaft axis as defined in claim 1, wherein: the first fastening assembly comprises fastening bolts (9) symmetrically arranged on the flange fixing plate (4), flange fixing holes (10) are symmetrically formed in the flange fixing plate (4), a plurality of transmission shaft holes (11) corresponding to the flange fixing holes (10) are formed in a flange opening of the transmission shaft (1), the fastening bolts (9) are respectively matched with the flange fixing holes (10) and the transmission shaft holes (11), and first fastening nuts (12) are further connected to the fastening bolts (9) in a threaded mode.

3. A drive extension shaft mounting apparatus for quickly locating a shaft axis as defined in claim 1, wherein: the second fastening assembly comprises a first threaded rod (13) connected to the first auxiliary rod (5), a first positioning hole (14) matched with the first threaded rod (13) is formed in the flange fixing plate (4), two second fastening nuts (15) are further connected to the first threaded rod (13) in a threaded mode, and the two second fastening nuts (15) are located on two sides of the flange fixing plate (4) respectively.

4. A drive extension shaft mounting apparatus for quickly locating a shaft axis as defined in claim 1, wherein: the third fastening assembly comprises a second threaded rod (16) connected to the second auxiliary rod (6), a second positioning hole (17) matched with the second threaded rod (16) is formed in the flange fixing plate (4), two third fastening nuts (18) are further connected to the second threaded rod (16) in a threaded mode, and the two third fastening nuts (18) are located on two sides of the flange fixing plate (4) respectively.

5. A drive extension shaft mounting apparatus for quickly locating a shaft axis as defined in claim 3, wherein: the first clamping assembly comprises a first pressure gauge clamp (19) clamped by the first pressure gauge (7), a first clamp fixing hole (20) is formed in the first pressure gauge clamp (19), a first contact hole (21) is formed in one end, far away from the first threaded rod (13), of the first auxiliary rod (5), a first clamping bolt (22) is simultaneously arranged in the first contact hole (21) and the first clamp fixing hole (20), and a first clamping nut (23) is connected to the first clamping bolt (22) in a threaded mode.

6. A drive extension shaft mounting apparatus for quickly locating a shaft axis as defined in claim 4, wherein: the first clamping assembly comprises a second pressure gauge clamp (24) clamped by the second pressure gauge (8), a second clamp fixing hole (25) is formed in the second pressure gauge clamp (24), a second contact hole (26) is formed in one end, far away from the second threaded rod (16), of the second auxiliary rod (6), a second clamping bolt (27) is simultaneously arranged in the second contact hole (26) and the second clamp fixing hole (25), and a second clamping nut (28) is connected to the second clamping bolt (27) in a threaded mode.

7. A drive extension shaft mounting apparatus for quickly locating a shaft axis as defined in claim 1, wherein: a plurality of standby flange fixing holes (29) are also formed in the flange fixing plate (4).

8. A drive extension shaft mounting apparatus for quickly locating a shaft axis as defined in claim 1, wherein: a plurality of standby positioning holes (30) are also formed in the flange fixing plate (4).