CN212258655U - Rotary transformer mounting structure of double-shaft telescopic motor - Google Patents

Abstract

The utility model relates to a flexible motor of biax's mounting structure that becomes soon, first mount pad is installed to the one end of motor, install first telescopic shaft and second telescopic shaft on the first mount pad, one side of first mount pad is equipped with the installing frame, be equipped with the linking seat on the installing frame, the installing frame lower extreme is equipped with spacing dish, the relative one side of activity intracavity wall all is equipped with the installation cavity, the bottom is equipped with the fifth piston in the installation cavity, third piston shaft and sixth piston, sixth piston one side is equipped with the second mount pad, be equipped with the pivot on the second mount pad, install the leading wheel in the pivot, be equipped with the third spring between fifth piston and the sixth piston, the third spring cup joints the periphery at the third piston shaft. The utility model discloses can guarantee the stability of first telescopic shaft and second telescopic shaft activity, and then guarantee the stability when the motor uses.

Description

Rotary transformer mounting structure of double-shaft telescopic motor

Technical Field

The utility model relates to a technical field of motor installation accessory specifically is a rotatory mounting structure that becomes of flexible motor of biax.

Background

The double-shaft telescopic motor is used as two telescopic driving shafts are arranged, the stability of the motor in use can be greatly influenced, the vibration of the motor in use can influence the stability of the telescopic shaft in work, the installation structure of the existing double-telescopic shaft motor does not have a buffering and damping structure, so that the stability of the double-telescopic shaft motor in use is poor, and the problem in the prior art is solved by developing a rotary-deformation installation structure of the double-shaft telescopic motor urgently.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a flexible motor of biax becomes mounting structure soon to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a rotary transformer mounting structure of a double-shaft telescopic motor comprises a motor, wherein a first mounting seat is mounted at one end of the motor, a first telescopic shaft and a second telescopic shaft are mounted on the first mounting seat, a mounting frame is arranged on one side of the first mounting seat, a linking seat is arranged on the mounting frame, a limiting disc is arranged at the lower end of the mounting frame, the first telescopic shaft and the second telescopic shaft penetrate through the limiting disc, a movable cavity for the first telescopic shaft and the second telescopic shaft to penetrate through is arranged on the limiting disc, a mounting cavity is arranged on one side, opposite to the inner wall of the movable cavity, of the mounting cavity, a fifth piston is arranged at the bottom of the mounting cavity, a third piston shaft is arranged on the inner wall of the movable cavity, a sixth piston is arranged on one side, far away from the fifth piston, of the third piston shaft, of the sixth piston is provided with a second mounting seat, and a rotating shaft is arranged on the second mounting seat, the rotating shaft is provided with a guide wheel, a third spring is arranged between the fifth piston and the sixth piston, and the third spring is sleeved on the periphery of a third piston shaft.

As a further aspect of the present invention: one side of the first mounting seat close to the mounting frame is provided with a connecting plate connected with the mounting frame.

As a further aspect of the present invention: the mounting frame is internally provided with a sliding groove, the sliding groove is provided with a sliding block sliding along the sliding groove, and the connecting plate is fixed on the sliding block.

As a further aspect of the present invention: the utility model discloses a mounting frame, including mounting frame, mounting plate, connecting plate, first limiting plate, first piston axle, first piston, first spring cup joints the periphery at first piston axle, the mounting frame is close to one side of first mount pad and is located the both sides of connecting plate and is equipped with first limiting plate and second limiting plate respectively, one side that first limiting plate is close to the connecting plate is equipped with first piston, one side that first piston is close to the connecting plate is equipped with first piston axle, one side that first piston axle is close to the connecting plate is equipped with the second piston of fixing on the connecting plate, be equipped with first spring between first piston and.

As a further aspect of the present invention: one side that the second limiting plate is close to the connecting plate is equipped with the fourth piston, one side that the fourth piston is close to the connecting plate is equipped with the second piston axle, one side that the second piston axle is close to the connecting plate is equipped with the third piston of fixing on the connecting plate, be equipped with the second spring between third piston and the fourth piston, the second spring cup joints the periphery at the second piston axle.

Compared with the prior art, the beneficial effects of the utility model are that: during the use, through establishing the installing frame in first mount pad one side, and install spacing dish on the installing frame, it is spacing to the direction of first telescopic shaft and second telescopic shaft to utilize spacing dish to realize, and establish the installation cavity in the activity intracavity, install the fifth piston in the installation cavity, third piston shaft and sixth piston, install the second mount pad on the sixth piston, establish the leading wheel spacing to first telescopic shaft and second telescopic shaft on the second mount pad, utilize the third piston shaft to stretch out and draw back in fifth piston and sixth piston, and utilize the elastic restoring force of third spring, so can guarantee the stability of first telescopic shaft and second telescopic shaft activity, and then guarantee the stability of motor when using.

Other features and advantages of the present invention will be disclosed in more detail in the following detailed description and the accompanying drawings.

Drawings

Fig. 1 is a schematic structural view of a rotary transformer mounting structure of a double-shaft telescopic motor according to the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

fig. 3 is a cross-sectional view of a limiting disc in the rotary transformer mounting structure of the double-shaft telescopic motor of the present invention;

fig. 4 is a partially enlarged schematic view of a portion B in fig. 3.

In the figure: 1. a motor; 2. a first mounting seat; 3. a first telescopic shaft; 4. a second telescopic shaft; 5. a limiting disc; 6. installing a frame; 7. a linking seat; 8. a chute; 9. a slider; 10. a connecting plate; 11. a first limit plate; 12. a second limiting plate; 13. a first piston; 14. a first piston shaft; 15. a first spring; 16. a second piston; 17. a third piston; 18. a second spring; 19. a second piston shaft; 20. a fourth piston; 21. a movable cavity; 22. a mounting cavity; 23. a fifth piston; 24. a third piston shaft; 25. a third spring; 26. a sixth piston; 27. a second mounting seat; 28. a rotating shaft; 29. a guide wheel.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying 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.

Referring to fig. 1 to 4, in an embodiment of the present invention, a rotary transformer mounting structure of a dual-shaft telescopic motor includes a motor 1, a first mounting base 2 is mounted at one end of the motor 1, a first telescopic shaft 3 and a second telescopic shaft 4 are mounted on the first mounting base 2, a mounting frame 6 is disposed at one side of the first mounting base 2, a connecting base 7 is disposed on the mounting frame 6, a limiting disc 5 is disposed at a lower end of the mounting frame 6, the first telescopic shaft 3 and the second telescopic shaft 4 are disposed through the limiting disc 5, a movable cavity 21 for the first telescopic shaft 3 and the second telescopic shaft 4 to pass through is disposed on the limiting disc 5, a mounting cavity 22 is disposed at an opposite side of an inner wall of the movable cavity 21, a fifth piston 23 is disposed at a bottom of the mounting cavity 22, a third piston shaft 24 is disposed at a position far from an inner wall of the movable cavity 21 by the fifth piston 23, a sixth piston 26 is disposed at a position far from the fifth piston 23 by the third piston shaft 24, a second mounting seat 27 is arranged on one side, away from the third piston shaft 24, of the sixth piston 26, a rotating shaft 28 is arranged on the second mounting seat 27, a guide wheel 29 is mounted on the rotating shaft 28, a third spring 25 is arranged between the fifth piston 23 and the sixth piston 26, and the third spring 25 is sleeved on the periphery of the third piston shaft 24. During the use, through establishing installing frame 6 on one side of first mount pad 2, and install spacing dish 5 on installing frame 6, utilize spacing dish 5 to realize spacing the direction of first telescopic shaft 3 and second telescopic shaft 4, and establish installation cavity 22 in activity chamber 21, install fifth piston 23, third piston shaft 24 and sixth piston 26 in installation cavity 22, install second mount pad 27 on sixth piston 26, establish the leading wheel 29 to first telescopic shaft 3 and second telescopic shaft 4 spacing on second mount pad 27, utilize third piston shaft 24 to stretch out and draw back in fifth piston 23 and sixth piston 26, and utilize the elastic restoring force of third spring 25, so can guarantee the stability of first telescopic shaft 3 and second telescopic shaft 4 activity, and then the stability when having guaranteed motor 1 to use.

In this embodiment, a connecting plate 10 connected to the mounting frame 6 is disposed on a side of the first mounting seat 2 close to the mounting frame 6. Establish the connecting plate 10 of being connected with installing frame 6 through being close to one side of installing frame 6 at first mount pad 2, utilize the connecting plate 10 can guarantee the stability when first mount pad 2 uses, stability when guaranteeing the installation of motor 1.

In this embodiment, a sliding groove 8 is formed in the mounting frame 6, a sliding block 9 sliding along the sliding groove 8 is arranged on the sliding groove 8, and the connecting plate 10 is fixed on the sliding block 9. Through establishing spout 8 in installing frame 6, establish on spout 8 along the gliding slider 9 of spout 8, connecting plate 10 is fixed on slider 9, so can realize that connecting plate 10 slides along spout 8, has realized that first mount pad 2 can have certain elasticity in vertical direction when using to the cushioning nature when having guaranteed motor 1 and using.

In this embodiment, the installing frame 6 is close to one side of first mount pad 2 and is located the both sides of connecting plate 10 and is equipped with first limiting plate 11 and second limiting plate 12 respectively, one side that first limiting plate 11 is close to connecting plate 10 is equipped with first piston 13, one side that first piston 13 is close to connecting plate 10 is equipped with first piston shaft 14, one side that first piston shaft 14 is close to connecting plate 10 is equipped with second piston 16 of fixing on connecting plate 10, be equipped with first spring 15 between first piston 13 and the second piston 16, first spring 15 cup joints the periphery at first piston shaft 14. One side of the first limiting plate 11 close to the connecting plate 10 is provided with a first piston 13, a first piston shaft 14 and a second piston 16, the first piston shaft 14 stretches in the first piston 13 and the second piston 16, and the flexibility of the first spring 15 is utilized, so that the buffering and shock absorption of the first mounting seat 2 are realized, and the stability of the motor 1 in use is ensured.

In this embodiment, a fourth piston 20 is disposed on one side of the second limiting plate 12 close to the connecting plate 10, a second piston shaft 19 is disposed on one side of the fourth piston 20 close to the connecting plate 10, a third piston 17 fixed on the connecting plate 10 is disposed on one side of the second piston shaft 19 close to the connecting plate 10, a second spring 18 is disposed between the third piston 17 and the fourth piston 20, and the second spring 18 is sleeved on the periphery of the second piston shaft 19. Through establish fourth piston 20, second piston axle 19 and third piston 17 at one side that second limiting plate 12 is close to connecting plate 10 to establish second spring 18 between third piston 17 and fourth piston 20, utilize second piston axle 19 to stretch out and draw back between third piston 17 and fourth piston 20, and utilize the elasticity resilience of second spring 18, further realized the buffering shock attenuation to first mount pad 2, guaranteed the stability when motor 1 uses.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (5)

1. A rotary transformer mounting structure of a double-shaft telescopic motor is characterized by comprising a motor, wherein one end of the motor is provided with a first mounting seat, a first telescopic shaft and a second telescopic shaft are mounted on the first mounting seat, one side of the first mounting seat is provided with a mounting frame, the mounting frame is provided with a connecting seat, the lower end of the mounting frame is provided with a limiting disc, the first telescopic shaft and the second telescopic shaft penetrate through the limiting disc, the limiting disc is provided with a movable cavity for the first telescopic shaft and the second telescopic shaft to penetrate through, the opposite side of the inner wall of the movable cavity is provided with a mounting cavity, the bottom of the mounting cavity is provided with a fifth piston, the fifth piston is provided with a third piston shaft far away from the inner wall of the movable cavity, one side of the third piston shaft far away from the fifth piston is provided with a sixth piston, and one side of the sixth piston far away from the third piston shaft is provided with a second mounting seat, the second mounting seat is provided with a rotating shaft, the rotating shaft is provided with a guide wheel, a third spring is arranged between the fifth piston and the sixth piston, and the third spring is sleeved on the periphery of a third piston shaft.

2. The rotary transformer mounting structure of a dual-shaft telescopic motor according to claim 1, wherein a connecting plate connected with the mounting frame is arranged on one side of the first mounting seat close to the mounting frame.

3. The rotary transformer mounting structure of a dual-shaft telescopic motor according to claim 2, wherein a sliding groove is formed in the mounting frame, a sliding block sliding along the sliding groove is arranged on the sliding groove, and the connecting plate is fixed to the sliding block.

4. The rotary transformer mounting structure of a dual-shaft telescopic motor according to claim 3, wherein a first limiting plate and a second limiting plate are respectively arranged on one side of the mounting frame close to the first mounting seat and on two sides of the connecting plate, a first piston is arranged on one side of the first limiting plate close to the connecting plate, a first piston shaft is arranged on one side of the first piston close to the connecting plate, a second piston fixed on the connecting plate is arranged on one side of the first piston shaft close to the connecting plate, a first spring is arranged between the first piston and the second piston, and the first spring is sleeved on the periphery of the first piston shaft.

5. The rotary transformer mounting structure of a dual-shaft telescopic motor according to claim 4, wherein a fourth piston is disposed on one side of the second limiting plate close to the connecting plate, a second piston shaft is disposed on one side of the fourth piston close to the connecting plate, a third piston fixed on the connecting plate is disposed on one side of the second piston shaft close to the connecting plate, a second spring is disposed between the third piston and the fourth piston, and the second spring is sleeved on the periphery of the second piston shaft.

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