阅读说明：本技术 旋转调相联轴节及其使用方法 (Rotary phase modulation coupling and method of use ) 是由 丁士鹏 丁士超 于 2020-07-07 设计创作，主要内容包括：本发明旋转调相联轴节包括：联轴节定子、联轴节转子、调节螺栓、调节顶头和联轴节压环,在联轴节定子和联轴节转子相接触端联轴节定子和联轴节转子上分别开有四个转子槽和四个定子槽,四个转子槽沿着联轴节定子中心线对称布置,四个定子槽在相应转子槽上延伸,四个调节顶头分别装在定子槽和转子槽内,调节顶头外形为方形圆柱,在其内有圆柱孔,调节顶头一端装在定子槽内,调节顶头圆柱孔对着定子槽,在沿着调节顶头长度方向定子槽内开有通向联轴节定子外部调节螺栓孔,调节螺栓从联轴节定子外部穿过调节螺栓孔固定在相应调节顶头圆柱孔内,将联轴节定子和联轴节转子固定在一起,联轴节压环套装在联轴节转子圆周上,并固定在联轴节定子上。(The invention relates to a rotary phase modulation coupling, comprising: the coupling stator, the coupling rotor, the adjusting bolt, the adjusting top and the coupling compression ring are respectively provided with four rotor slots and four stator slots on the coupling stator and the coupling rotor which are in contact with each other, the four rotor slots are symmetrically arranged along the central line of the coupling stator, the four stator slots extend on the corresponding rotor slots, the four adjusting tops are respectively arranged in the stator slots and the rotor slots, the adjusting top is shaped as a square cylinder and is provided with a cylindrical hole inside, one end of the adjusting top is arranged in the stator slot, the cylindrical hole of the adjusting top faces the stator slots, the stator slots in the length direction of the adjusting tops are provided with adjusting bolt holes leading to the outside of the coupling stator, the adjusting bolt penetrates through the adjusting bolt holes from the outside of the coupling stator and is fixed in the cylindrical holes of the corresponding adjusting tops, the coupling stator and the coupling rotor are fixed together, the coupling compression ring is sleeved on the circumference of the coupling rotor, and is fixed to the coupling stator.)

1. A rotary phase modulation shaft coupling comprising: the coupling structure comprises a coupling stator (5), a coupling rotor (3), an adjusting bolt (1), an adjusting top head (2) and a coupling pressure ring (10), wherein the coupling rotor (3) is arranged in the coupling stator (5), the coupling rotor (3) is connected with a connecting shaft through a key, and the coupling stator (5) is connected with a rotating member through a fastening bolt hole (6) on the coupling stator; four rotor slots (8) and four stator slots (9) are respectively arranged on the coupling stator (5) and the coupling rotor (3) at one end where the coupling stator (5) and the coupling rotor (3) are contacted, the four rotor slots (8) are symmetrically arranged along the central line of the coupling stator (5), the four stator slots (9) extend on the corresponding rotor slots (8), four adjusting top heads (2) are respectively arranged in the stator slots (9) and the rotor slots (8), the adjusting top head (2) is shaped like a square cylinder, a cylindrical hole is arranged in the square cylinder, one end of the adjusting top head (2) is arranged in the stator slot (9), the other end of the adjusting top head is arc-shaped and is propped against the coupling rotor (3), the cylindrical hole of the adjusting top head (2) is opposite to the stator slots (9), and an adjusting bolt hole (4) leading to the outside of the stator (5) is arranged in the stator slot (9) along the length direction of the adjusting top head (2), the adjusting bolt (1) passes through the adjusting bolt hole (4) from the outside of the coupling stator (5) and is fixed in the cylindrical hole of the corresponding adjusting top head (2), the coupling stator (5) and the coupling rotor (3) are fixed together, and the coupling pressure ring (10) is arranged at one end of the coupling stator (5) which is contacted with the coupling rotor (3), is sleeved on the circumference of the coupling rotor (3) and is fixed on the coupling stator (5).

2. A rotary phase modulation coupling according to claim 1, wherein: one side of the stator slot (9) is an extension of the square cylindrical pipe wall of the adjusting plug (2) placed in the stator slot.

3. A rotary phase modulation coupling according to claim 2, wherein: the coupling compression ring (10) is fixed on the coupling stator (5) through screws arranged on the circumference of the coupling compression ring.

4. A rotary phase modulation coupling according to claim 3, wherein: a key groove (7) is formed in the coupling rotor (3), and the coupling rotor (3) is connected with the connecting shaft through the key groove (7) and the key.

5. A rotary phase modulation coupling according to claim 4, wherein: the diameter of the cylindrical hole of the adjusting plug (2) is the same as that of the adjusting bolt (1).

6. Use of a rotary phase modulation coupling according to any one of claims 1 to 5, characterized in that: it comprises the following steps:

(1) opening a coupling compression ring (10), respectively installing an adjusting top head (2) into four rotor grooves (8) and four stator grooves (9) from one ends of a coupling stator (5) and a coupling rotor (3), inserting four adjusting bolts (1) into adjusting bolt holes (4), and closing the coupling compression ring (10);

(2) connecting a coupling rotor (3) with a connecting shaft through a key groove (7) and a key, connecting a coupling stator (5) with a rotary part through a fastening bolt hole (6) and a bolt, wherein the coupling stator (5) axially rotates 0 to +/-7 degrees relative to the coupling rotor (3) in the connecting process;

(3) respectively extending the four adjusting bolts (1) into the cylindrical holes of the adjusting top heads (2) to ensure that the adjusting bolts (1) and the adjusting top heads (2) generate certain pre-tightening force; the rotation phase modulation coupling can be used as a rigid coupling.

Technical Field

The invention belongs to the technical field of mechanical transmission, and particularly relates to a rotary phase modulation coupling and a using method thereof.

Background

Couplings, also known as couplings, securely connect parts of different mechanisms for rotation together and transfer of motion and torque. The couplings are classified into two major types, namely rigid couplings and flexible couplings according to whether the couplings have cushioning properties and the capability of compensating relative displacement of two axes, and are widely applied to the fields of machinery, buildings and the like. The coupling now serves as a standardized or standardized mechanical component, and the correct model can usually be determined by knowing the type and dimensions of the coupling required. However, for some applications with special requirements, the conventional coupling is not sufficient.

The rigid coupling requires strict centering of two axes, has the advantages of simple structure, low cost, reliable connection and the like, and is most widely applied. The flexible couplings can be further divided into inelastic element flexible couplings, which have the ability to compensate only the relative displacement between the two axes, and elastic element flexible couplings, which have the ability to absorb shock and cushion on the basis of this. The flexible couplings with elastic elements are limited by the strength of the elastic elements contained, and have much lower capability of transmitting motion and torque than rigid couplings and flexible couplings without elastic elements, so the application scene is limited.

In the installation process of the coupler, the input end and the output end are often installed in place in advance, and because of certain initial load, the input end and the output end are difficult to axially adjust through manual operation, so that alignment is difficult during the assembly of the coupler, and the initial phases of the input end and the output end need to be repeatedly adjusted. In addition, in some special application scenarios, the original phase difference exists between the two connected shafts or rotating parts, and even the phase difference needs to be adjustable, and at the moment, the rigid coupling or the flexible coupling cannot be effectively realized.

In order to adjust the phase difference between the input end and the output end connected to the coupling, patent document CN107642554A proposes a coupling with a fast phase adjustment. The method mainly has two defects, on one hand, the coupler is complex in structure, the input end and the output end are connected by adopting a spline pair, and the coupler also comprises auxiliary mechanisms such as a supporting mechanism and a shearing mechanism, so that the design and manufacturing process is time-consuming and labor-consuming; on the other hand, when the coupler is used for adjusting the phase, a high-pressure oil delivery pipe needs to be connected externally, which undoubtedly brings inconvenience to the use process.

Patent document CN106715941B proposes a coupling mechanism and a corresponding coupling method in which two shafts have a mechanically preset coupling phase angle, and a ratchet mechanism is used to couple two shafts with a certain phase difference. However, the ratchet mechanism is difficult to manufacture and can only be adjusted in one direction, so that the invention has very limited practicability, and an economical and practical phase modulation coupling is yet to be developed.

Disclosure of Invention

In view of the defects in the prior art, the invention of the application aims to provide an economical and practical rotary phase modulation coupling and a using method thereof.

In order to achieve the purpose of the invention, the following technical scheme is adopted in the application:

the invention relates to a rotary phase modulation coupling, which comprises: the coupling rotor is arranged in the coupling stator, the coupling rotor is connected with the connecting shaft through a key, and the coupling stator is connected with the rotary member through a fastening bolt hole on the coupling rotor; four rotor slots and four stator slots are respectively arranged on the coupling stator and the coupling rotor at the end where the coupling stator and the coupling rotor are contacted, the four rotor slots are symmetrically arranged along the central line of the coupling stator, the four stator slots extend on the corresponding rotor slots, four adjusting heads are respectively arranged in the stator slots and the rotor slots, the appearance of the adjusting head is a square cylinder, a cylinder hole is arranged in the square cylinder, one end of the adjusting head is arranged in the stator slot, the other end of the adjusting head is in a circular arc shape and is propped against the coupling rotor, the cylinder hole of the adjusting head faces the stator slots, an adjusting bolt hole leading to the outside of the coupling stator is arranged in the stator slot along the length direction of the adjusting head, an adjusting bolt penetrates through the adjusting bolt hole from the outside of the coupling stator to be fixed in the cylinder hole of the corresponding adjusting head, and the coupling stator and the coupling rotor are fixed together, the coupling press ring is installed on the end of the coupling stator contacting with the coupling rotor, and it is sleeved on the circumference of the coupling rotor and fixed on the coupling stator.

The invention relates to a rotary phase modulation coupling, wherein: one side of the stator slot is an extension of the square cylindrical pipe wall of the adjusting plug placed in the stator slot.

The invention relates to a rotary phase modulation coupling, wherein: the coupling clamping ring is fixed on the coupling stator through screws arranged on the circumference of the coupling clamping ring.

The invention relates to a rotary phase modulation coupling, wherein: the coupling rotor is provided with a key groove therein, and the coupling rotor is connected with the connecting shaft through the key groove and the key.

The invention relates to a rotary phase modulation coupling, wherein: the diameter of the cylindrical hole of the adjusting plug is the same as that of the adjusting bolt.

The invention relates to a using method of a rotary phase modulation coupling, which comprises the following steps: it comprises the following steps:

(1) opening the coupling compression ring, respectively installing the adjusting top head into the four rotor slots and the four stator slots from one end of the coupling stator and one end of the coupling rotor, inserting the four adjusting bolts into the adjusting bolt holes, and closing the coupling compression ring;

(2) connecting the coupling rotor with the connecting shaft through a key slot and a key, connecting the coupling stator with the rotating part through a fastening bolt hole and a bolt, and axially rotating the coupling stator for 0 to +/-7 degrees relative to the coupling rotor in the connecting process;

(3) respectively extending the four adjusting bolts into the cylindrical holes of the adjusting top head to ensure that the adjusting bolts and the adjusting top head generate certain pretightening force; the rotation phase modulation coupling can be used as a rigid coupling.

It should be noted that, in the using process, the original phase difference of the connected components can be changed at any time by adjusting the adjusting bolt according to the needs.

Compared with the prior art, the invention has the following beneficial effects:

1. the invention has simple structure and low cost, and can effectively transmit motion and torque.

2. The invention can adapt to the original phase difference of the input end and the output end.

3. The invention can adjust the original phase difference of the input end and the output end according to the actual requirement.

4. The invention has convenient use, safety and reliability, does not need auxiliary components such as electric components, hydraulic components and the like, and can be completed through manual operation in the processes of assembly, adjustment and the like.

Drawings

FIG. 1 is a schematic longitudinal cross-sectional view of a rotary phase modulation coupling of the present invention;

FIG. 2 is a cross-sectional view of the rotary phase modulation coupling of the present invention, with the coupling clamping ring removed, as viewed in the direction of arrow A of FIG. 1;

FIG. 3 is a schematic cross-sectional view of the coupling rotor of FIG. 2 after a 5 counterclockwise rotation;

fig. 4 is a schematic longitudinal cross-sectional view taken along line B-B of fig. 2.

Reference numeral 1 is an adjusting bolt; the reference number 2 is an adjusting plug; reference numeral 3 is a coupling rotor; reference numeral 4 is an adjusting bolt hole; reference numeral 5 is a coupling stator; reference numeral 6 is a fastening bolt hole; reference numeral 7 is a key groove; reference numeral 8 is a rotor slot; reference numeral 9 is a stator slot; reference numeral 10 denotes a coupling collar.

Detailed Description

The present invention will be described in detail with reference to specific examples. The following examples will assist those skilled in the art in further understanding the present invention.

As shown in fig. 1 to 4, the rotation-phasing coupling of the present invention comprises: the coupling rotor 3 is arranged in the coupling stator 5, a key groove 7 is formed in the coupling rotor 3, and the coupling rotor 3 is connected with a connecting shaft through the key groove 7 and a key. The coupling stator 5 is connected with the rotating member through a fastening bolt hole 6 on the coupling stator, and is characterized in that; four rotor slots 8 and four stator slots 9 are respectively arranged on the coupling stator 5 and the coupling rotor 3 at one end where the coupling stator 5 and the coupling rotor 3 are contacted, the four rotor slots 8 are symmetrically arranged along the central line of the coupling stator 5, the four stator slots 9 extend on the corresponding rotor slots 8, four adjusting heads 2 are respectively arranged in the stator slots 9 and the rotor slots 8, the adjusting heads 2 are square cylinders, cylindrical holes are arranged in the square cylinders, one end of each adjusting head 2 is arranged in the stator slot 9, the other end of each adjusting head 2 is arc-shaped and abuts against the coupling rotor 3, the cylindrical holes of the adjusting heads 2 face the stator slots 9, one side of each adjusting head 2 extends from the square cylinders of the adjusting heads 2 arranged in the stator slots 9, adjusting bolt holes 4 leading to the outside of the stator 5 are formed in the stator slots 9 along the length direction of the adjusting heads 2, the adjusting bolts 1 penetrate through the adjusting bolt holes 4 from the outside of the coupling stator 5 and are fixed on the corresponding adjusting heads 2, the diameter of the adjusting bolt 1 is the same as that of the cylindrical hole of the adjusting top head 2, a coupling stator 5 and a coupling rotor 3 are fixed together, and a coupling pressure ring 10 is arranged at one end of the coupling stator 5, which is contacted with the coupling rotor 3, sleeved on the circumference of the coupling rotor 3 and fixed on the coupling stator 5 through a screw arranged on the circumference.

The application method of the rotary phase modulation coupling comprises the following steps:

(1) opening a coupling compression ring 10, respectively installing the adjusting top 2 into four rotor slots 8 and four stator slots 9 from one ends of a coupling stator 5 and a coupling rotor 3, inserting four adjusting bolts 1 into adjusting bolt holes 4, and closing the coupling compression ring 10;

(2) connecting the coupling rotor 3 with a connecting shaft through a key groove 7 and a key, connecting the coupling stator 5 with a rotating part through a fastening bolt hole 6 and a bolt, and rotating the coupling stator 5 clockwise and axially for 5 degrees relative to the coupling rotor 3 in the connecting process;

(3) respectively extending the four adjusting bolts 1 into the cylindrical holes of the adjusting plug 2 to ensure that the adjusting bolts 1 and the adjusting plug 2 generate certain pretightening force; the rotation phase modulation coupling can be used as a rigid coupling.

It should be noted that, when the rotation phase is adjusted, the coupling rotor 3 and the connecting shaft are not moved, the coupling stator 5 is rotated, the adjusting bolt 1 is matched with the cylindrical hole of the adjusting plug 2, and the original phase difference of the connected parts can be changed at any time by adjusting the adjusting bolt 1 according to needs in the use process.

Specifically, when the rotation phase modulation coupling is used for connecting an input end and an output end which are installed in place in advance and have a certain phase difference, the direction in which the coupling rotor 3 needs to rotate is observed firstly, two adjusting bolts 1 with the same direction are screwed, and the adjusting top 2 pushes the coupling rotor 3 under the action of the adjusting bolts 1. After the coupling rotor 3 rotates for a proper angle along the target rotation direction, the other two adjusting bolts 1 are screwed down.

Compared with patent document CN 202701061U: in the process of operating the document chain mode forming device, the upper die and the lower die are sometimes staggered. The dislocation of the mould has great negative influence on the forming of the variable cross-section piece, and once the dislocation occurs, the problem needs to be solved in time. If the rotary phase modulation coupling of the invention is adopted, the problem of mold dislocation of the chain mode forming device can be effectively solved, and the upper mold and the lower mold can be synchronized by indirectly correcting the position of the single-side mold only by adjusting the phase difference of the coupling rotor 3 and the coupling stator 5.

The foregoing description of specific embodiments of the present invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes and modifications may be made by one skilled in the art within the scope of the appended claims without departing from the spirit of the invention. The embodiments and features of the embodiments of the present application may be combined with each other arbitrarily without conflict.